Liebert ITR installation manual Water/Glycol

Page 61

Split System Models

Figure 28 Water/glycol-cooled condensing unit (con't.)

Field-supplied unit disconnect switch when factory unit disconnect switch is not supplied

WATER/GLYCOL

Optional factory-installed

disconnect switch

 

Field-supplied 24V NEC Class1 wiring to fan/coil unit

Electric service; not by Liebert

Field-supplied 24V NEC Class1 wiring to drycooler (glycol-cooled units only)

Heat rejection connection.

Removable

Field-supplied 24V NEC

Access

Class 2 wiring. Wire

Panel

connections from evaporator

 

mod:

 

1.

24V ground

 

2.

24V supply

 

3.

High pressure alarm (optional)

4.

Hot gas bypass

 

connection (only on units with hot gas bypass)

Remote drycooler connection; field-supplied 24V NEC Class 1 wiring (glycol-cooled units only)

Line-voltage electric power supply conduit entrance

Connection terminal for field-supplied earth grounding wire

Low-voltage electric

power supply conduit entrance

Field-supplied 24V NEC Class 1 wiring between glycol condensing unit and drycooler

DPN000228_Rev0

NOTES

1.Refer to specification sheet for full load amp. and wire size amp. ratings.

2.Control voltage wiring must be a minimum of 16 GA (1.6mm) for up to 75' (23m) or not to exceed 1 volt drop in control line.

55

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Contents Liebert Challenger ITR Page Table of Contents Split System Models Chilled Water ModelsR407C Refrigerant Figures Tables System Descriptions Room Preparation Remote Sensor Installation LocationEquipment Inspection Location ConsiderationsHandling With Skid Unit shipping weightsRemoval of Skid Domestic Export Model Lb kg 50Hz Models 60Hz ModelsUnit Weight Cabinet dimensionsSL-11897 Drain Line Piping ConsiderationsPiping connection size Piping Outlet Locations Piping connections for split system fan coil units Piping connections for water/glycol and Glycool units Piping connections for chilled water self-contained units Electrical connections Electrical ConnectionsBalancing the Air Distribution Plenum InstallationDucted Applications Checklist for Completed Installation Line Voltage Condenser LocationLow Voltage Lee-Temp/Flood Back Head Pressure Control CondensersAir-cooled condenser statistics Recommended line sizes OD copper inches Refrigerant Piping23 & 33 kW 067A 065A Equivalent Length Hot Gas Line Liquid LineMaterials Supplied Fan Speed Control SystemsEquivalent lengths feet for various pipe fittings Condenser refrigerant per serial tagDehydration/Leak Test Single Circuit Shown Lee-Temp/Flood Back Head Pressure Control Systems Refrigerant control settings psi kPaCharging PipingMaterials Supplied Low Pressure Cut Out High Pressure Cut Out 360 Single Circuit Shown Condenser Water-cooled general arrangement Testing Valve Function Water Regulating Valve AdjustmentWater Regulating Valve Water Regulating Valve Manual FlushingDrycooler Location Drycooler InstallationPump and Drycooler Glycol Piping Room dew point temperaturesExpansion Tanks, Fluid Relief Valves and Other Devices Dry Bulb Wet Bulb Relative Dew Point HumidityVolume in standard Type L copper piping Indoor unit glycol volume approximate gallons liters maxFilling Instructions Preparing the System for FillingEthylene glycol concentrations Glycol Solutions@ 50F 10C Filling the System 43-9/16 110 5mm For expansion tank dimensions, see onSee Note 30-1/4 483mm 43-3/16 1097mmDrycooler data Mounting hole dimensional dataGlycol pump data Pump Pump Suction Pump Discharge ConnectionGlycol general arrangement Glycool general arrangement Glycol Regulating Valve Glycol Regulating Valve AdjustmentChilled Water Models Water/Glycol-Cooled Condensing Units Air-Cooled Condensing UnitsRefrigerant Loop Recommended refrigerant lines R22 or R407C sizes OD copper Unit refrigerant chargeLine coupling sizes Evaporator Condensing Unit EvaporatorQuick Connect Fittings Outdoor Air-Cooled Condensing Units Unit Dimensions See TablePFH067A-L See Table Outdoor air-cooled condensing unit-top air discharge models36-1/4 38-1/2 Piping and electrical connections top air discharge152 SL-11081 PG 8A Electrical field connections, prop fan condensing moduleModel Net Weight 60 Hz 50 Hz Lb kg MC65A MC64A Installing the Indoor Condensing UnitCentrifugal Air-Cooled Condensing Units Indoor centrifugal condensing unitAirflow CFM CMH DuctingCentrifugal air-cooled condensing unit dimensional data AIR Cooled Water Cooled Water and Glycol-Cooled Condensing Units Regulating Valve Adjustment and TestingPiping Considerations Condenser Water RequirementsWater/glycol-cooled condensing unit dimensions WATER/GLYCOL R407C Refrigerant Temperature Gauge Pressure Psig KPaCalculating Subcooling Temperature Pressure Gauge Psig KPaExample Iti Ne tTi n That

ITR specifications

The Liebert ITR is an advanced precision cooling unit designed to maintain optimal temperature and humidity levels in mission-critical environments. Engineered for high-performance applications, it is particularly suitable for data centers, telecommunications facilities, and other spaces that require precise climate control to ensure uninterrupted operation of sensitive equipment.

One of the main features of the Liebert ITR is its modular design. This allows for scalability and flexibility, enabling users to customize the system based on their specific cooling needs. The unit can be configured in various sizes and cooling capacities, making it suitable for both small server rooms and large data centers. This adaptability is crucial for organizations that anticipate growth and require an efficient cooling solution that can evolve with their infrastructure.

The Liebert ITR incorporates state-of-the-art technologies to enhance performance and energy efficiency. Among these technologies is the use of a variable speed compressor that adjusts its speed based on the cooling load. This capability not only improves energy efficiency but also significantly reduces operational costs by minimizing electricity consumption when cooling demands fluctuate.

Additionally, the unit features advanced control systems that provide intelligent monitoring and management of temperature and humidity levels. These systems can integrate seamlessly with building management systems (BMS) and can be operated remotely, providing users with real-time insights into the performance of the cooling system. Such connectivity ensures quick identification and resolution of potential issues, thereby reducing downtime and maintaining optimal conditions for critical equipment.

The Liebert ITR utilizes eco-friendly refrigerants, contributing to reduced environmental impact while ensuring compliance with regulatory standards. The unit's design also emphasizes reliability, featuring robust construction and redundant components that enhance longevity and minimize the likelihood of failures.

Furthermore, the Liebert ITR is equipped with advanced filtration systems that maintain air quality by reducing particulate matter and contaminants, ensuring that the atmosphere within data centers is not only cool but also clean—critical for the longevity of sensitive electronic equipment.

Overall, the Liebert ITR is characterized by its innovative design, energy-efficient operation, and comprehensive control capabilities, making it an ideal choice for businesses looking to safeguard their critical infrastructure from overheating and humidity. As climate control becomes increasingly important in the digital age, the Liebert ITR stands out as a reliable solution for maintaining optimal environmental conditions.
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