Find out why thousands of Australians have made the switch
iStore's – AIR TO ENERGY technology drastically reduces your electricity costs, especially when combined with a solar PV system, helping you make the most of it. Utilising thermal energy, the iStore hot water heat pump stores the excess solar energy generated by your solar panels and converts it into hot water for your home.
Part of the iStore Solar Energy Range
iStore hot water heat pumps are part of the iStore home electrification product line up that includes solar power systems, hybrid solar inverters and modular solar batteries.
Bundle and Save $200 when you buy any 6kW or more Solar Energy System and an iStore heat pump!
The iStore hot water heat pump is one of the most efficient and affordable energy storage alternatives on the market. In fact, the iStore heat pumps dynamic, efficient system can reduce your water heating costs by up to 70%.
Benefits of the iStore Hot Water Heat Pump
- Make the most of your solar PV system
- Receive STCs (Small-scale Technology Certificates)
- Generate hot water energy all year round
Heating water for the home accounts for up to 25% of the total energy usage for the average Australian household. iStore heat pumps are a cost-effective, reliable hot water solution that reduces water heating consumption by 2/3 and CO₂ emissions by 4 tonnes. Installing an iStore heat pump could save you up to $1,000 per year on your energy bills.*
Heat Pump Technology
Heat pumps aren’t new technology, they’ve been around for decades now and have been put to a variety of uses throughout the world, with refrigerators and air conditioners being some of the most common examples.
Heat pumps, at their most basic level, extract heat from one place and transfer it to another. This is the simplest possible explanation, but there’s a lot more to it than that. Heat pumps transfer heat by circulating refrigerant through a constant cycle of condensation and evaporation.
A compressor is used to pump the refrigerant through a pair of heat exchange coils, each of which is used in a different part of the cycle. In one, the refrigerant is evaporated at a low pressure, which causes it to absorb heat from its surroundings, it is then re-compressed on its way to the other coil, where it condenses at a high pressure. This process results in heat being brought in from the surroundings, then passed on through from the coils into the water tank they wrap around (in the case of water heat pumps).
Built-in Smart Timer
Maximise the full potential of the iStore heat pump by syncing it with a solar power system. The easy-to-use, built-in smart timer will offset any excess power to the iStore heat pump, saving you even more.
Comparison Chart
Running Costs p/a based on 200L per day consumption*
* Savings are based upon the running costs of an electric storage or 3-star gas storage hot water systems for a family of 4 consuming 200 litres per day for one year when compared to an iStore 270L heat pump with PV solar contribution. Tariffs based on WA pricing, $0.25 per kWh for electricity, Natural Gas price of $0.0351 c/MJ & LPG price of 1.25 $/L. Actual savings may vary on household usage, solar power system and climate conditions.
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