Emerson 2 user manual Pressure information, Design Minimum Maximum, Psig kPa Psig kPA

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Maintenance

9.Connect a vacuum pump to both the high and low sides of the system through properly sized connections. Evacuate the system twice to 1500 microns, and the third time to 500 microns. Break the vacuum each time with dry nitrogen to 2 PSIG (13.8 kPa).

10.Charge the system with refrigerant. Refer to unit serial tag for refrigerant charge amount.

11.Apply power and operate system. Check for proper operation. Suction and discharge pressures will vary with load conditions and coil efficiency. The low pressure switch will shut the compressor down if the suction pressure falls below the cutout setting. Conversely, the high pressure switch will shut down the compressor if the discharge pressure exceeds the cutout setting. High suction pressure reduces the ability of the refrigerant to cool compressor components and can result in compressor damage. Refer to Table 4.

NOTE

High side gauge port is a liquid line connection. Proper procedures should be followed when installing and removing gauges. A 6-foot (1.8 m) hose can hold up to 3 oz (0.1 l) of refrigerant. Be sure to purge high side to low prior to removal.

Table 4

Pressure information

Design

 

Minimum

Maximum

Pressures

 

psig (kPa)

psig (kPa)

psig (kPA)

 

R-22

R-22

Suction

 

35 (241)

90 (620)

 

 

 

 

 

Liquid (Approx.)

PSIG (kPa)

 

 

95°F (35°C) Ambient

250-290 (1723-2000)

 

 

 

 

 

 

Maximum

360-380 (2480-2618)

 

 

High Pressure Cutout

400 (2756)

 

 

 

 

Based on indoor conditions of 80°F (26.7°C), 50% RH, with clean filter(s).

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Contents Liebert InteleCool2 Page Table of Contents Specifications Troubleshooting Maintenance Inspection Checklist PartsFigures ET 0 36 H R P F B T Standard Features GeneralOptional Features Accessories Ancillary ComponentsUnit Installation PreparationRoom Preparation Location ConsiderationsMounting dimensional data See below for keys to dimensionsPiping Connections Power Connections DuctingElectrical Connections Control ConnectionsLiebert Thermostat Tele2Installation AdjustmentOutside Air Damper Optional Economizer OptionalChecklist for Complete Installation START-UP Procedure Compressorized Cooling Refrigeration systemEconomizer Cooling Optional Heating OptionalEnthalpy Sensor ActuatorRemote Control Interface Unit ControlsHigh Pressure Standard Refrigeration Control OptionsAnti-Short Cycle Timer Standard Common Alarm OptionalPack1 package Pack2 packageFilters Blower PackageHeat Refrigeration SystemCompressor Thermostatic Expansion ValveAir-Cooled Condenser Mechanical FailureCompressor Replacement Electrical FailurePressure information Design Minimum MaximumPsig kPa Psig kPA Dimensional Data InteleCool2 dimensional data in. mmTechnical Data Technical data, 60 HzCFM m 3/hr 490 22280F DB/19.4C 67F WB indoor ambient kW Btuh Outdoor ambient M3/hr CFMTechnical data, 50 Hz Ambient kW BtuhHr CFM Optional heater capacity, 60 Hz Optional heater capacity, 50 HzHeater Capacity kW Nominal Heater Rating Ton 10 kWKW Heat No Heat Circ1 Circ2 Model Volts Phase Electrical data, 60 Hz ampsElectrical data, 50 Hz amps Troubleshooting guide Problem Probable Cause RemedyLiebert InteleCool2 Monthly FiltersFan Section Semiannually Compressor SectionParts Refrigeration system parts, 1.5 and 2 ton unitsRefrigeration system parts, 3 ton units Refrigeration system parts, 4-ton units Refrigeration system parts, 5-ton units Electric panel, 1.5- and 2-ton units 11-10Electric panel parts, 3-ton units Electric panel parts, 4-ton unit Electric panel parts, 5-ton unit Motor parts, heater, Economizer, 1.5- and 2-ton units High ambient optionMotor parts, heater, Economizer, 3-ton units Motor parts, heater, Economizer, 4-ton units Motor parts, heater, Economizer, 5-ton units Condenser/piping assembly Crankcase heater reciprocating compressor onlyEvaporator blower Evaporator coil and expansion valveElectric panels Heater assembly Economizer assembly Soft start device To compressor capacitorParts Parts Page Ne t ItiTi n That

2 specifications

Emerson 2 is an advanced automation and control technologies platform designed to enhance operational efficiencies across various industries. This next-generation system builds upon its predecessor, incorporating cutting-edge technologies that facilitate seamless integration and data-driven decision-making.

One of the main features of Emerson 2 is its robust IIoT (Industrial Internet of Things) capabilities. These features allow for real-time data collection and monitoring, which empower users to gain insights into their processes. By leveraging smart sensors and devices, Emerson 2 ensures that vital information is captured and communicated effectively, leading to improved process optimization and reduced downtime.

Emerson 2 also offers enhanced analytics tools, enabling organizations to analyze large volumes of data efficiently. Users can utilize advanced algorithms and machine learning models to identify patterns, predict equipment failures, and optimize maintenance schedules. This predictive maintenance capability is critical for minimizing operational disruptions and maximizing asset life.

The platform is designed with user experience in mind, featuring an intuitive interface that simplifies navigation and enhances usability. Operators can easily access real-time dashboards and visualizations, allowing them to make informed decisions rapidly. Customizable reporting tools further enhance user interaction, enabling teams to generate reports that meet their specific operational needs.

Security is a top priority for Emerson 2, which incorporates advanced cybersecurity measures to protect sensitive data. With built-in encryption protocols and secure communication standards, Emerson 2 ensures that information is safeguarded against potential threats and cyberattacks.

Another noteworthy characteristic of Emerson 2 is its scalability. The platform is designed to grow with businesses, allowing for the integration of additional sensors, devices, and modules as operational demands evolve. This flexibility means that companies can adapt their automation strategies without overhauling their entire system.

Finally, Emerson 2 supports various industry standards and protocols, facilitating interoperability with existing systems and equipment. This feature enables a smoother transition for businesses looking to upgrade their automation capabilities without extensive overhauls.

In summary, Emerson 2 represents a significant leap in automation technology, featuring IIoT integration, advanced analytics, user-friendly interfaces, robust security, scalability, and interoperability. As industries seek smarter and more efficient solutions, Emerson 2 stands out as a versatile platform equipped to meet the challenges of modern manufacturing and process control.