No roof-mounted solar collectors: Ideal for installations not suitable for traditional solar water heaters.
- Eligible for STCs: Solahart Atmos qualifies for Small-Scale Technology Certificates (STCs), helping you reduce the up-front cost of your purchase. (1)
Energy Efficient: Energy efficient water heating. Solahart Atmos uses less energy than a conventional electric water heater
Reduced Energy Use: Water heating energy use may be reduced by up to 60% to 64% when replacing an electric water heater. (2)
Electric boosting: Electric booster back-up for hot water in very cold conditions for continuous hot water.
A heat pump water heater consumes less energy than an electric water heater - up to 60% to 64%(2) less.
It works much like a reverse cycle air-conditioner in that the surrounding ambient air is the heat source rather than the sun. Solahart Atmos Heat Pump provides reliable hot water for your family and is suitable for residential applications where you require energy efficient hot water, without the need for roof space.
Installation is relatively quick and easy. Solahart Atmos can usually be installed in the same location as an outdoor electric water heater and connected up to the existing plumbing and electrical connections, making it a great energy saving replacement for an existing electric water heater.
Solahart Atmos is suitable for frost regions and it is not suitable for scaling or corrosive water areas(3). Even on cloudy or cold days, heat is drawn from the surrounding air. The heat pump will operate when the ambient air temperature is between a minimum of 3°C to 5°C and a maximum of 45°C to 55°C.
The booster heating unit will operate when the ambient air temperature is outside of this temperature range if heating is required. The efficiency of the water heater increases as the ambient air temperature increases within the operating range of the heat pump.
Solahart Atmos Heat Pump Water Heater has a vitreous enamel lined steel cylinder and sacrificial anode for protection against corrosion. It also qualifies for government environmental incentives.
* The suggested price is comprised of RRP less the applicable solar incentive and excluding installation. Solar incentive value applies to a Solahart Atmos Heat Pump Water Heater in Zone 3.
(1) Small-scale Technology Certificates (STCs) are a financial benefit to encourage the installation of solar and heat pump water heaters provided under a Federal Government legislated scheme. STCs financial benefit value is subject to change. Your installation may be eligible. Please refer to www.solahart.com.au for further details.
(2) Energy savings shown are based on Australian Government approved TRNSYS simulation modelling using a medium load. Savings and incentives will vary depending upon your location, type of Solahart system installed, orientation and inclination of the solar collectors, type of water heater being replaced, hot water consumption and fuel tariff. Maximum financial savings off your hot water bill are achievable when replacing an electric water heater on continuous tariff.
(3) Harsh water regions – the Solahart Warranty may not apply to the water heater if it is connected to a water supply with: a Chloride content > 250 mg/L; or a pH < 6; or is scaling with a Saturation Index > +0.4; or is corrosive with a Saturation Index < -1.0.
† Warranty Details: 5/3/2 warranty; 5-year cylinder supply, 3-year labour on the cylinder, 2-year parts including labour: applies to a single family domestic dwelling only. All other applications have a 3/1/1 warranty; 3-year cylinder supply, 1-year cylinder labour, 1-year parts, 1including labour.
Solahart Atmos Heat Pump Specifications
|Suitable for # of People (warm climate)||2 - 5|
|Height (A)||1631 mm|
|Width (B)||888 mm|
|Depth (C)||638 mm|
|Module Height (D)||1018 mm|
|Empty (Cartoned)||130 kg|
|Storage Capacity||325 lt|
|Power Input||800 W|
|Element Sizes||3.6 kW|
|Boost Capacity||180 litres|
|Water Connections & Settings|
|Tank Relief Valve Setting||1000 kPa|
|ECV Setting||850 kPa|
|Maximum Mains Pressure Settings|
|With ECV||680 kPa|
|Without ECV||800 kPa|
|Min. Water Supply Pressure||
How Heat Pump Water Heaters Work
Solahart Atmos Heat Pump Water Heater delivers hot water by efficiently utilising a free and abundant source of energy - the heat that is locked in the air around us. Even on a relatively cold day, the air has some heat which is available to be transferred to a fluid. The secret is to make the fluid even colder than the air. You can see in the diagram at step 1, that liquid refrigerant begins at high pressure before being forced through an expansion valve (2). This sudden release of pressure cools the liquid to allow it to absorb heat from the surrounding air. This valve is designed to carefully regulate how much refrigerant passes through it.
On cold days, less refrigerant passes through; the smaller amount of fluid expands faster into the available space and cools to a lower temperature. On warmer days, more refrigerant is allowed to pass through - it doesn't need to cool down as much because the air has more available heat to transfer. As the cooled refrigerant passes up the coiled tubes, air is blown over the tubes to warm the refrigerant till it becomes a vapour (3). To make the heat pump more efficient, part of the air is actually drawn from around the motor. This helps cool the motor as well as reclaiming potentially wasted heat.
Next, the low pressure vapour needs to be compressed again to return it to its original pressure (4). The temperature has by now reached around 80ºC. From here the refrigerant is pumped to the heat exchanger where it passes down a series of narrow tubes (5). The cold water is pumped up an alternating set of tubes to allow it to absorb the heat. Each time water passes through the heat exchanger it emerges around 10-15ºC hotter. When all the water in the attached storage tank reaches its pre-set temperature, the heat pump switches itself off.
Ice may begin to form on the evaporator reducing the heat pump efficiency, when the ambient air temperature falls below 7°C and the heat pump has been operating for an extended period. At ambient air temperatures below 3°C to 5°C, the water heater deactivates the heat pump operation and switches to the booster heating unit. During this period the evaporator will defrost if necessary.
At ambient air temperatures above 45°C to 55°C, the water heater deactivates the heat pump operation and switches to the booster heating unit. The water inside the tank will be heated to a temperature of 70°C by the electric booster heating unit if heating is required. The temperature setting of the thermostat controlling the booster heating unit is not adjustable and is set at 70°C.
The water heater has a freeze protection system. The freeze protection system will protect the water heater from damage, by preventing ice forming in the waterways of the water heater, in the event of freezing conditions occurring.
If the ambient air temperature falls below 1°C and the heat pump is not operating, the system will operate the circulator periodically. During this freeze protection cycle, the circulator will operate for thirty (30) seconds and then rest for fifteen (15) minutes, before the cycle is recommenced. Water is circulated from the storage tank through the heat pump circuit, to prevent freezing in the connecting pipe work and heat pump module. The green LED will flash a series of four (4) flashes whilst the circulator is operating.
Why Solahart Solar Hot Water Systems: Download
Solahart Atmos Heat Pump Water Heater Datasheet: Download
Link to "How it Works" Video Here
Solahart Atmos Heat Pump Water Heater Owner's Guide and Installation Manual: Download
Solar Incentive Forms
Small-scale Technology Certificate Assignment Form: Download