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7.4 Chilled Water Distribution System

Chilled water is ccntrally produced and distributed throughout the campus, and this district cooling system shall be utilized whcrcver possible. The district cooling system is comprised of four major subsystems; the production system, the distribution system, the building bridge system, and the building cooling system. The Designer responsible for connecting to this system is primarily concerned with the last two subsystems (See STANDARD DETAILS - Chilled Water Building Interfacc). Designer shall provide all neccssary Information in spccifications and drawing so that contractor may provide and install all instrumentation and control valves as dcscribed in this guidelinc.

Building .System - Generally

The building system includes all chilled water piping in the building: the chilled water pump and all cooling coils, hcat exchangers and other equipment using chilled water. The Designer musi consider the following when designing the building chilled water Systems.

The maximum allowable elevation of chilled water piping in the building is 565 feet above sea lcvel and not less than 350 feet abovc sea lcvel.

Designer musi calculate chilled water static plus dynamie head for each project and determine if pressure limits of the chilled water system arc exceeded. Buildings that requirc higher or lower clcvations or higher heads must have piąte and lrame hcat exchangcrs. Platę and 1'rame hcat exchangers must have the flow regulated on the primary (or supply) sidc of the heat cxchanger by means of a propcrly sized control valve. The temperaturę sensor must be located on the sccondary side of the heat exchanger in the lcaving water linę for controlling the chilled water supply temperaturę to the loads.

The cooling coils and heat exchangcrs must be designed for variable flow. constant temperaturę diffcrcntial. At design conditions these units must have a return temperaturę of at least 59 degrees F (60 degrees F if a heat exchangcr is used) and not require a supply temperaturę of less than 45 degrees F. The return temperaturę during Iow load conditions shall not drop below 55 degrees F. The cooling coil lube velocity at design flow shall not be less than 4 FPS. Providc a lcaving chilled water temperaturę sensor on all hcat exchangers (cooling coils) ovcr 10 tons rated cooling capacity.

Chilled water from this system shall not be used for any application wherc the temperaturę of the heat cxchanger surface in contact with the chilled water exceeds 75 degrees F.

The building pump must be selected for the building system head and flow rcquirements. A variable volumc pump is recommcnded. particularly in buildings with large cooling loads.

The control valves and control systems on equipment scrved by the chilled water system must be capable of accurate Iow load control and elose off across the building pump shutoff head.

Usc a separate bridge interface system for unusual or special cooling loads. A spccial load may require an clevated supply temperaturę, such as proccss cquipment. or may be a critical load in a

STANDARD SPECIFICATIONS

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