Toshiba Carrier LT.Commercial Heat Pump
Whether you're supplementing cooling and heating in an entry or an interior room, you'll appreciate the power and efficiency of this heat pump. Its Inverter compressor and outdoor fan can accurately match the load to drive efficiency and keep temperatures even.
If you are more concerned with assuring consistent temperatures year round you'll be able to cool in temperatures as low as 23° F (0° F with optional wind baffle) and heat in outdoor temps ranging from -4 to 59° F. And with line lengths of up to 245' (depending on system configuration) this versatile unit can go just about anywhere.
The RAVAT heat pump can be matched with the RAVKR High Wall, RAVUT Cassette, or RAVCT Underceiling indoor units to create the RAV Single Zone Ductless System.
SMART DUAL FUEL SWITCH FOR HEAT PUMPS DOES IT SAVE MONEY ON GAS AND ELECTRICITY BILLS?
The simple answer to this question is Yes! Compared to the majority of standard heating systems, the smart dual fuel switch for heat pumps is incredibly energy-efficient. Paired with a smart fuel switch, the dual heat pumps provide you with a combination of a gas furnace and an electric heat pump, allowing you to switch between both economically and efficiently. A smart dual fuel switch for heat pumps is the ideal choice as it provides you with the reliability of a gas furnace and the benefits of an electric heat pump. Here is everything you need to know about the smart dual fuel switch for heat pumps.
Smart Dual Fuel Switch for Heat Pumps Provides the Best of Both Worlds
With a smart dual fuel switch for heat pumps paired with your gas furnace and heat pump, you can capitalise on the most efficient functionalities of both systems. In addition to not emitting any harmful greenhouse gas, a heat pump is more efficient during the winter as, under ideal circumstances, it transfers 300% more energy than it consumes. However, thanks to the latest technology, the smart dual fuel switch for heat pumps makes it possible to convert between 150 % up to 350% of the energy consumed into heat.
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