Heat Pump Air Conditioning
Despite their name, heat pumps are the most energy-efficient way to provide heat pump cooling and air conditioning for your home. Installing a heat pump will replace both your old AC unit and gas-burning furnace, reducing energy consumption and utility bills, ensuring a comfortable and cleaner home all year round.
Heat Pumps’ Power as
Air Conditioners
Efficient Air Conditioning
Heat pumps are up to 200% more efficient air conditioning systems than traditional units, leading to lower utility bills.
Cost-Effective
Heat pumps are dual action, handling heating and cooling, so you save on installation and maintenance costs.
Year-Round Comfort
Your home will be cozy all year with heat pumps that efficiently cool in summer and warm in winter.
Tax Incentives
You can receive a 30% heat pump tax credit capped at $2,000 per year. The credit resets each tax year, becoming available again for additional projects. You can also receive a 30% tax credit up to $600 for an electrical panel upgrade when it’s upgraded with a heat pump.


Install Heat Pump AC For The Environmental Benefits
Looking for a sustainable way to cool your home? A heat pump cooling install offers an excellent solution. Unlike traditional air conditioning systems, installing a heat pump AC system not only cools your home in the summer but also provides heating in the winter, making it an energy-efficient powerhouse.
Heat pumps are recognized for their low environmental impact, making them a top choice for those seeking eco-friendly air conditioning. Enjoy comfortable indoor temperatures year-round while reducing your carbon footprint and energy bills.
How Do Heat Pumps Cool Your Home?

Absorbing Heat
Draws warm air from inside your home moves over the evaporator coil and removes warmth.

Transfers Heat
It moves the warm heat outside.

Cool, Clean Home
You’re left with cool, refreshing air.
Let's Get Technical: (from the U.S. Dept. of Energy)
“A heat pump’s refrigeration system consists of a compressor and two coils made of copper tubing (one indoors and one outside), which are surrounded by aluminum fins to aid heat transfer. In heating mode, liquid refrigerant in the outside coils extracts heat from the air and evaporates into a gas. The indoor coils release heat from the refrigerant as it condenses back into a liquid. A reversing valve, near the compressor, can change the direction of the refrigerant flow for cooling as well as for defrosting the outdoor coils in winter.”