York D3CE, D3CG manual Return AIR Supply AIR, Outdoor AIR Discharge, Gas Piping Bottom

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530.26-TG3YI

UNIT DIMENSIONS - D*CG180 & 240 UNITS

1235 (48-5/8") (180)

1337 (52-5/8") (240)

3181 (125-1/4") (180)

3561 (136-1/4") (240)

616 (24-1/4") (180)

895 (35-1/4") (240)

RETURN AIR

SUPPLY AIR

OUTDOOR AIR (Discharge)

OUTDOOR AIR

(Economizer)

CLEARANCES (mm / in. )

Front1

914

/ 36

Back

610

/ 24 (Less Economizer)

1245 / 49 (With Economizer)

 

Left Side (Filter Access)

610

/ 24 (Less Economizer)

1372 / 54 (With Economizer)

 

Right Side (Outdoor Coil)

914 / 36

Below Unit2

0 / 0

 

Above Unit3

1829 / 72 with 914 / 36 maximum

Horizontal Overhang

 

(For Outdoor Air Discharge)

1Locate unit so that the vent air outlet hoods are at least:

0.9 meter (3 ft) above any forced air inlet located within 3.0m (10 ft) horizontal (excluding those integral to the unit).

1.2 meters (4 ft) below, 1.2m (4 ft.) horizontal from, or 0.31m(1 ft) above any door or gravity air inlet into the building.

1.2 meters (4 ft) from electric meters, gas meters, regulators and relief equipment. 2Units may be installed on combustible surfaces capable of continuous exposure to

temperatures of 92°C (197°F), and intermittent exposure to temperatures of 124°C (255°F).

3 Units must be installed outdoors. Overhanging structures or shrubs should not obstruct the outdoor air discharge outlet.

NOTE: A 25mm (1 in.) clearance must be provided between any combustible material and the supply air ductwork for a distance of 0.9m (3 ft) from the unit.

The products of combustion must not be allowed to accumulate within a confined space and recirculate.

All dimensions are in millimeters and inches, unless otherwise specified. They are subject to change without notice. Certified dimensions will be provided upon request.

UTILITIES ENTRY DATA

 

OPENING

 

 

 

HOLE

DIAMETER*

USED FOR

 

(in. / mm)

 

 

 

A

1-1/8 / 29

KO

Control Wiring

 

Front

3/4 NPS / 19

(Fem.)

 

Bottom

 

 

 

B

3-5/8 / 92

KO

Power Wiring

 

Front

3 NPS / 76 (Fem.)

 

Bottom

 

 

 

C

2-3/8 / 60

KO

Gas Piping (Front)

 

D

1-11/16 / 43 Hole

Gas Piping (Bottom)**

*KO denotes Knockout facility.

**Opening in the bottom of the unit can be located by the slice in the insulation.

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Unitary Products Group

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Contents Description 530.26-TG3YIFIELD-INSTALLED Accessories Table of ContentsRatings Sunline 2000äCOP EER Cooling Capacities m3/s Air Flow 180 Units CFM Cooling Capacities CFM Air Flow 180 UnitsMBH Cooling Capacities m3/s Air Flow 240 Units Cooling Capacities CFM Air Flow 240 Units Standard Drive m3 /s High Speed Drive m3 /sBlower Motor Airflow Pulley Speed Turns ESPStandard Drive m3/s Blower MotorBlower Motor Airflow Standard Drive m /sSpeed Pulley RPM Turns ESP 80 m 3/s 30 m 3/s 10 m 3/s 40 m 3/s 262895 249 114 925Blower Motor and Drive Data Static ResistancesCompressor Outdoor Supply AIR Total Unit MAX MIN Power Motor MOTOR, FLA Amps Fuse Wire SIZE2 Size Supply RLA LRABlower SIZE1Physical Data Clearances mm / Opening Hole Diameter Used forReturn AIR Supply AIR Outdoor AIR DischargeOutdoor AIR Gas Piping BottomConnect ductwork to the duct flanges on the rear of the unit 2337 1524 3181 125-1/4 11433461 136-1/4 240Roof Curb Dimensions D*CE / D*CG180 & 240 Units Typical ApplicationsROOF-TOP Installation GAS/ELECTRIC Unit Shown Typical Applications Cont’d

D3CG, D3CE specifications

York D3CE and D3CG are innovative air-cooled chillers developed to address the growing demands for energy-efficient cooling solutions in commercial and industrial settings. These models are part of York's comprehensive range of HVAC products, showcasing advanced engineering and cutting-edge technologies designed to optimize performance while reducing operational costs.

One of the standout features of the York D3CE and D3CG series is their high efficiency. These chillers utilize a variable speed drive (VSD) technology that allows the compressor to adjust its speed according to the cooling load. This capability enhances energy efficiency, particularly in varying load conditions, and can lead to substantial energy savings compared to traditional fixed-speed chillers.

In terms of environmentally friendly refrigerants, both the D3CE and D3CG models are designed to operate with refrigerants that have low global warming potential (GWP). This aspect not only supports sustainability initiatives but also aligns with international regulations aimed at reducing greenhouse gas emissions. This makes them an appealing choice for organizations committed to minimizing their environmental impact.

The York D3CE and D3CG chillers are engineered to ensure quiet operation, making them suitable for noise-sensitive applications such as urban environments, hospitals, and educational institutions. Sound-dampening technologies are integrated into the design to minimize operational noise, thus preserving the quality of the surrounding environment.

Another significant characteristic is the advanced control system tailored for these chillers. The intuitive controls interface allows for easy monitoring and adjustment of operating parameters, enabling facilities managers to optimize performance and maintain effective cooling without extensive training.

Durability and reliability are also hallmarks of the D3CE and D3CG series. Constructed with high-quality materials and robust components, these models are engineered to withstand harsh operating conditions and deliver consistent performance over time. Regular maintenance can be managed efficiently thanks to accessible service points, ensuring that these chillers can serve their intended lifespan and beyond.

In summary, the York D3CE and D3CG series stands out in the crowded HVAC market due to their high efficiency, environmentally friendly design, quiet operation, advanced control capabilities, and rugged reliability. These features make them a prudent choice for organizations looking to enhance their cooling systems while adhering to environmental and economic sustainability goals.