Carrier 90MA/MF/MU manual Unit Length of RUN

Page 13

Table 4 Recommended Line Sizes, Remote Condenser

UNIT

 

 

 

LENGTH OF RUN

 

 

 

(90MU)

 

 

 

 

 

 

 

 

0--25

26--50

51--75

76--100

 

 

 

 

 

 

 

 

 

 

DISCH

LIQUID

DISCH

LIQUID

DISCH

LIQUID

DISCH

LIQUID

 

 

 

 

 

 

 

 

 

004

1/2 (1.3)

1/2(1.3)

5/8(1.6)

1/2(1.3)

5/8(1.6)

1/2(1.3)

7/8(2.2)

1/2(1.3)

 

 

 

 

 

 

 

 

 

006

5/8(1.6)

1/2(1.3)

7/8(2.2)

1/2(1.3)

7/8(2.2)

1/2(1.3)

7/8(2.2)

1/2(1.3)

 

 

 

 

 

 

 

 

 

008

7/8(2.2)

5/8(1.6)

7/8(2.2)

5/8(1.6)

7/8(2.2)

5/8(1.6)

1-1/8(2.9)

5/8(1.6)

 

 

 

 

 

 

 

 

 

012

7/8(2.2)

5/8(1.6)

1-1/8(2.9)

5/8(1.6)

1-1/8(2.9)

5/8(1.6)

1-1/8(2.9)

5/8(1.6)

 

 

 

 

 

 

 

 

 

NOTES:

1.Line sizes given in inches (cm).

2.Line sizes should never be smaller than cooling unit connection size.

3.A nominal number of fittings has been considered in determining line sizes. Smaller line sizes may be considered if run is simple and few fittings are used.

d. Hold flare tightly against fitting while connecting flare nut. Round end of cotter pin will depress core of fitting. The opened fitting allows refrigerant pressure to act on water regulating valve. Tighten nut to pre- vent leakage. Fitting automatically seals when nut is removed.

REMOTE MOUNTED CONDENSER (90MU) - Install

remote mounted condenser in accordance with the installation instructions provided with condenser. Connection locations for liquid and discharge lines are shown in Figure 5. Recommended line sizes are given in Table 4. Additional instructions can be found in Carrier System Design Manual, Part 3, for standard refrigeration piping techniques. On 008 and 012 size units, secure discharge line to bracket at unit outlet using proper clamp from supplied fastener package

Condenserless (90MU) units are shipped with a refrigerant holding charge. After refrigerant connections are made, leak test, reclaim refrigerant, evacuate, and charge system as described in paragraph 5.9.

3.13Install Condensate Drain Line

Install a trapped condensate drain line at unit drain connection. The drain requires standard pipe connected to condensate pan nipple(s). Figure 7 shows proper trap design.

Determine design negative static pressure. This pressure is not the same as fan total static pressure, which includes pressure losses downstream as well as upstream from the evaporator air fan. Always assume the worst conditions, such as having return air filters clogged with debris.

Referring to Figure 7, differential 1 must be equal to or larger than negative static pressure at design operating condition. Store enough water in trap to prevent losing seal. Differential 2 must be equal to or larger than one-half the maximum negative static pressure. To avoid loss of seal when the fan starts, differential 3 must be greater than the maximum negative static pressure.

Figure 7 Condensate Drain Trap

Do not use drain line smaller than 3/4 inch. Use hole(s) provided in panel for drain line. Pitch drain line downward toward scupper. Installation of a plugged tee is recommended for cleaning. Fill trap with water to make an air seal. Observe all sanitary requirements.

3.14Make Electrical Connections

GENERAL - Provide an adequate fused disconnect switch within sight of the unit. Provision for locking switch open (OFF) is advisable to prevent power from being turned on when unit is being serviced.

POWER WIRING - Conduit opening for all units is on left side of unit near control box. Connect field power wires at the compressor contactor.

Supply voltage must be in accordance with nameplate voltage. Voltage between phases must be balanced within 2% and current within 10% with compressor running. Correct improper voltage or phase imbalance. Unit failure as a result of operation on improper line voltage or excessive phase imbalance constitutes abuse and shall void the Carrier warranty. Use the following formula to determine the percent voltage imbalance.

7

62--10458--00

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Contents Installation Operation & Service Models Safety Summary 62--10458--00 Safety-2 Table of Contents List of Illustrations Introduction Base Unit 90MA/MF/MU Units 404 406 408 Base Unit 90MA/MF Units Unit Dimensions Install water-regulating valve in water supply line Unit Length of RUN Operation Service Condensers may require cleaning of water-deposited scale Forced Circulation Method Refrigerant Charging 134a Units Mounting Wiring Schematic -- 90MA/MF/MU004/006 Component Arrangement -- 90MA/MF/MU004/006 62--10458--00 Wiring Schematic -- 90MA/MF/MU008/012 Component Arrangement -- 90MA/MF/MU008/012 62--10458--00 Index 62--10458--00

90MA/MF/MU specifications

The Carrier 90MA/MF/MU series represents a significant advancement in HVAC technology, designed for commercial applications needing reliability, efficiency, and precision in climate control. These units are renowned for their ability to cater to varying thermal loads while minimizing energy consumption, making them an ideal choice for various settings including offices, retail spaces, and industrial facilities.

One of the standout features of the Carrier 90MA/MF/MU series is its impressive energy efficiency. The equipment is designed with advanced thermodynamic principles to ensure maximum heat transfer and minimal energy loss. With high Seasonal Energy Efficiency Ratios (SEER) and Energy Efficiency Ratios (EER), these units help building owners achieve higher energy savings compared to traditional HVAC systems.

Another significant characteristic of the 90MA/MF/MU series is the integration of advanced control technologies. The units come equipped with sophisticated microprocessor-based controls that allow for precise temperature management and enhance overall system performance. Features like modulating capabilities and variable speed fans provide superior comfort levels by continuously adjusting to the changing environmental conditions.

The 90MA series also emphasizes quiet operation, which is critical for commercial environments. The innovative design includes insulation and vibration dampening technologies that reduce noise levels, ensuring a comfortable working atmosphere.

Durability and reliability are also central to the design of the Carrier 90MA/MF/MU series. These units are engineered with high-quality materials and components, including robust compressors and corrosion-resistant finishes that withstand harsh weather conditions. This durability extends the lifespan of the units, thus reducing maintenance costs and downtime.

In terms of versatility, the 90MA/MF/MU series offers a broad range of configurations and options, including various sizes and capacities. This flexibility allows for tailored solutions that meet the specific needs of different applications, from large commercial buildings to smaller retail outlets.

The series also supports environmentally friendly refrigerants that comply with global standards, marking Carrier’s commitment to sustainable practices. This approach not only reduces environmental impact but also positions businesses favorably in the eyes of eco-conscious consumers.

Overall, the Carrier 90MA/MF/MU series stands out as a pinnacle of efficiency, performance, and reliability in the commercial HVAC market. Its advanced technologies and thoughtful design cater to the diverse needs of modern businesses while promoting a sustainable and comfortable indoor environment.
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