York YR User Manual download pdf (Page 13)

YORK INTERNATIONAL

FORM 160.81-EG1

Mechanical Specifications

GENERAL

Each YORK M

AXE YR Screw Chiller will be completely

factory-packaged including evaporator, condenser, com-

pressor, motor, OptiView control center and all inter-

connecting unit piping and wiring. The chiller will be

painted prior to shipment and will be packaged to pro-

tect the unit during shipment.

Performance will be certified in accordance with ARI

Standard 550/590.

The initial charge of refrigerant and oil will be supplied

for each unit.

DRIVELINE

The compressor will be twin-screw, rotary-screw type.

The compressor housing will be of cast iron, precision

machined to provide minimal clearance for the rotors.

The rotors will be manufactured from forged steel and

use asymmetric profiles operating at a maximum speed

of 3570 RPM (60 Hz) or 2975 RPM (50 Hz). The com-

pressor will incorporate a complete anti-friction bearing

design to reduce power and increase reliability; cylin-

drical roller bearings to handle radial loads; and 4 point

angular contact ball bearings to handle axial loads. The

compressor will have an internal oil reservoir to assure

a constant supply of oil to the bearings at all times. A

check valve will be incorporated in the compressor hous-

ing to prevent rotor backspin during shutdown.

Capacity control will be achieved by use of a slide valve

to provide fully modulating control from 100% to 20%

of full-load. The slide valve will be actuated by system

differential pressure, controlled by external solenoid

valves through the OptiView control center. The unit

will be capable of operating with off-design cooling tower

water during part-load operation in accordance with ARI

Standard 550/590.

The motor will be 2-pole, continuous-duty, cage-induc-

tion type, and will utilize suction gas cooling (semi-her-

metic design). Motor full-load amperes at design condi-

tions will not exceed chiller nameplate (FLA). Motor will

be designed for use with the type starter specified.

LUBRICATION SYSTEM

An adequate supply of oil will be available to the com-

pressor at all times. During operation, oil will be deliv-

ered by positive system pressure differential.

An immersion oil heater will be provided, (temperature

actuated), to effectively remove refrigerant from the oil

during the chiller off-cycle. An external, replaceable car-

tridge, oil filter will be provided, along with manual isola-

tion stop valves for ease of servicing. An oil eductor will

be provided to automatically remove oil which may have

migrated to the evaporator, and return it to the compres-

sor. The oil separator will be of a vertical design with no

moving parts, and will provide high-efficiency oil separa-

tion before the refrigerant enters the heat exchangers.

The oil separator will be designed, tested, and stamped

in accordance with the ASME Boiler and Pressure Ves-

sel Code, Section VIII Division 1. Liquid refrigerant in-

jection will be provided to maintain satisfactory oil tem-

peratures and allow operation of the chiller over the full

range of conditions.

EVAPORATOR

Evaporator will be of the shell-and-tube, flooded type

designed for 235 PSIG (1620 kPa) working pressure on

the refrigerant side, and will be tested in accordance with

ASME code. The shell will be fabricated from rolled car-

bon steel plate with fusion welded seams or carbon steel

pipe; have carbon steel tube sheets, drilled and reamed

to accommodate the tubes; and intermediate tube sup-

ports spaced no more than four feet apart. The refriger-

ant side will be designed, tested and stamped in accor-

dance with the ASME Boiler and Pressure Vessel Code,

Section VIII Division 1. Tubes shall be high-efficiency,

internally and externally enhanced type having plain cop-

per lands at all intermediate tube supports to provide

maximum tube wall thickness at the support area. Each

tube will be roller expanded into the tube sheets provid-

ing a leak-proof seal, and be individually replaceable.

Water velocity through the tubes will not exceed 12 fps.

A liquid level sight glass will be located on the side of the

shell to aid in determining proper refrigerant charge. The

evaporator will have a refrigerant relief device to meet

the requirements of the ASHRAE 15 Safety Code for

Mechanical Refrigeration.

Water boxes will be removable to permit tube cleaning

and replacement. Stubout water connections having

victaulic grooves will be provided. Vent and drain con-

nections with plugs will be provided on each water box.

CONDENSER

Condenser will be of the shell-and-tube type, designed

for 235 psig (1620 kPa) working pressure on the refrig-

erant side, and be tested in accordance with ASME code.

The shell will be fabricated from rolled carbon steel plate

with fusion welded seams or carbon steel pipe; have

carbon steel tube sheets, drilled and reamed to accom-

modate the tubes; and intermediate tube supports

spaced no more than four feet apart. A refrigerant

subcooler will be provided for improved cycle efficiency.

The refrigerant side will be designed, tested and

stamped in accordance with the ASME Boiler and Pres-

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York YR User Manual Page 13

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