TRANE AXM-XLA Two Stage Compression Assures Heat Pump Instructions
- May 15, 2024
- Trane
Table of Contents
**TRANE AXM-XLA Two Stage Compression Assures Heat Pump Instructions
**
INSTALLATION INSTRUCTION
Two-stage compression assures heat pump heating down to -30°F (-34°C)
ambient.
Trane’s agile engineering is fast tracking innovations so that more buildings
can electrify heat efficiently and effectively—and replace carbon-producing
boilers.
Trane® Thermafit™ Modular Air-to-Water Heat Pump Model AXM-XLA (Extra-Low
Ambient)
Now the easy-to-install Thermafit modular air-to-water heat pump AXM can
provide reliable, all-electric cooling or heating, even during severe cold
snaps. AXM-XLA sources heat from ambient air in cold climates. Two-stage
compression technology extends the effective operating range of the scroll
compressor to provide reliable comfort in the coldest climates.
Comprehensive Chiller-Heater System Approach
Trane systems experts work with engineers and building owners to understand
their specific performance requirements. When Thermafit AXM-XLA is controlled
by our pre-engineered system applications
in Tracer SC+, systems can optimize efficiency and comfort yearround, even in
ASHRAE climate zone 7 with typical heating design day temperatures at -30°F
(-34°C)
Unit Details
Two-stage compression technology is key to operating effectively in cold climates. (Two scroll compressors in series.) Modular flexibility enables defrost staging between multiple units for continuous heating reliability.
- Minimum 2 modules, expandable up to 5 module bank
- 264 to 660 MBH heating at -20°F (-29°C) ambient with hot water temperatures up to 154°F (67°C)
- 20 – 50 tons of cooling
- Low GWP R-454B refrigerant
General Data
Voltage| Length| Width| Height| Operating
Weight
460/60/3
575/60/3| 94.8 in.| 48.0 in| 92.5 in.| 3,500 lbs.
** You can help us solve electrification challenges.**
By putting our engineering minds together, we can speed forward to take carbon
out of buildings worldwide.
Collaborate with Trane. Let’s work together to move electrification forward faster.