Up to 71% Cheaper to Run!
Leverage Natural Energy
Leverage the air's natural energy to heat your water, and save your money! It utilizes free energy from your solar panels to heat your water. If you already have solar installed, this is an extra cost you don't have to pay for.
71% Cheaper to Run
The Enviroheat air-source heat pump installed by Naked Energy is up to 71% cheaper to run. Download your copy of the Cost comparisons sheet below.
Efficent Water Heating
You don't have to worry about the water not being hot enough in time for your shower as automatic timers can be set to the times you wish for it to begin heating.
Not Weather Dependant
The Enviroheat Thermal Battery is designed to seamlessly integrate with your home solar system in Perth and Western Australia, providing efficient storage of heat energy for use during non-sunny periods and ensures a steady supply of hot water around the clock.
The Condenser Design
MICRO-CHANNEL CONDENSER
Larger contact surface for better heat transfer and less refrigerant consumption.
HEAT PUMP COMPRESSOR
Specially designed for heat pumps to maximise the efficiency.
BOTTOM COIL
Design enlarges the total heat exchange area to deliver more hot water.
NO FIXED WIRING
Simply plug the unit into a 10 Amp power point, no fixed wiring required.
DUAL ANODES
Twice the corrosion protection with dual full length anodes. Reduces costly maintenance.
Multi Channel Design
The multi-channel design condenser design divides flow into 11 galleries with greatly improved heat transfer over a single pipe.
Titanium-Aluminium Alloy For Better Corrosion & Heat Resistance
The multi-channel condenser withstands corrosion for 7.5 times longer than copper pipe condenser.
Reduced Pressure Drop Improves Compressor Efficiency by 6%.
Micro-channel: pressure drop 0.03Mpa Coil pipe: pressure drop 0.15Mpa.
Larger Contact Surface to Improve Heat Transfer Efficiency by 30%
Improved heat transfer means improved efficiency. Up to 71% cheaper to run than conventional hot water systems.
Standard Heat Pump vs Micro-Channel
How Heat Pumps Work:
Think of a heat pump as a refrigerator running in reverse. While a refrigerator removes heat from inside the fridge and releases it outside, a heat pump pulls heat from the outside air and moves it into your water tank. Here's a step-by-step breakdown:
01
Cold Water Entry:
Cold water enters the heat pump through the inlet valve located at the lower side of the tank.
02
Heat Intake from Ambient Air:
The heat pump extracts heat from the surrounding air through a fan system (shown on the right). This heat intake is critical for warming the water inside the tank.
03
Heat Transfer via Refrigerant:
Inside the system, a refrigerant absorbs the heat from the air. This refrigerant is compressed, which increases its temperature.
04
Heat Exchanger:
The hot refrigerant passes through a coil (heat exchanger) inside the tank, which transfers the heat to the water stored in the tank. The water heats up as the refrigerant cools down and cycles back to absorb more heat.
05
Hot Water Outlet:
As the water in the tank heats up, it rises and can be extracted through the hot water outlet at the top of the tank, ready to be used for household needs.
06
Continuous Process:
The system repeats this process, continually extracting heat from the ambient air, transferring it to the water through the refrigerant, and maintaining a steady supply of hot water.