Save huge on hot water with Victoria's warmth pump rebate software!
Victorians can get up to $1,000 off putting in a new warmness pump hot water machine via the Victorian Energy Upgrades (VEU) program.
Get Up to $3,000 in Government Rebates. Apply Now!
Save money on hot water and help the surroundings with Victorian authorities rebates!
The Victorian Energy Upgrades (VEU) application is presenting rebates to Victorians who switch to power-green hot water systems. These structures use warmness pumps to heat your water, which can significantly lessen your warm water heating prices. This aligns with the nation’s climate alternate desires by means of reducing greenhouse fuel emissions.
Benefits:
- Lower hot water bills
- Environmentally pleasant
Eligibility for Government-Sponsored Heat Pump Hot Water System Upgrades
To qualify for enhancements to warmth pump warm water structures beneath the authorities application, the following criteria should be met:
- The property have to be located in Victoria.
- For enterprise premises, the prevailing heat pump need to be as a minimum 10 years vintage.
- The application additionally applies to Class 2 buildings, along with not unusual areas in multi-residential homes, for businesses.
Looking to improve your hot water device to a greater green heat pump?
Victorian companies can get a unfastened hot water heat pump improve, even as homeowners can claim a widespread rebate of as much as $three,000 via the Victorian Energy Upgrades (VEU) software.
Here’s how it works for house owners:
- Contact us to get began.
- Provide your info, inclusive of your address and proof of assets ownership.
- We'll arrange for an authorized plumber to evaluate your home and speak the upgrade technique and timeline.
- Once accredited, our team of certified plumbers and electricians will set up the new warmness pump.
- We'll deal with decommissioning your old hot water heater.
- Best component? We'll handle the rebate application for you!
What does an air supply heat pump-pushed hot water heater entail?
Air supply warmth pump water warmers take a one-of-a-kind approach. They act like a refrigerators in opposite, using strength to transport warmth from the encompassing air to a tank of water. This makes them an awful lot more green, as they are now not creating warmness, just moving it.
Imagine a warmth pump water heater as a magic container that attracts warmth from the air to heat your water. Here’s what’s internal:
- Powerhouse: A power cable gives you the energy needed to make the magic take place.
- Air Catcher: A fan sucks in surrounding air and directs it over special coils.
- Heat Sponge: These coils, referred to as evaporators, contain a refrigerant that acts like a sponge, soaking up warmness from the air.
- Pressure Booster: The compressor then takes this refrigerant and squeezes it tight, elevating its temperature similar to squeezing a sponge will increase the water pressure.
- Heat Giver: Hotter now, the refrigerant flows thru any other set of coils referred to as condensers. This warmness exchanger transfers the warmth from the squeezed refrigerant to the water within the storage tank.
- Water Reservoir: This insulated tank acts as a hot water battery, storing the heated water for every time you want it.
- Fresh Supply: Cold water enters the device via a devoted inlet to be heated.
- Hot Tap: The heated water is then equipped for your showers, dishes, or some other hot water needs, delivered via a dedicated outlet.
- Pressure Reliever: An enlargement valve helps adjust the stress and temperature of the refrigerant as it circulates.
- Cycle Repeater: Finally, the cooled refrigerant returns to the evaporator coils, prepared to select up greater heat and begin the cycle all over again.
Refrigerant liquid circulates back to the evaporator coils to restart the cycle.
Upgrade to a warmth pump water heater and experience the blessings of efficiency, sustainability, and lengthy-lasting performance
- Save Money, Save the Planet: Heat pumps dissipate to 60% much less electricity than conventional electric warmers, slashing your software bills and lowering greenhouse gasoline emissions. It's a win-win on your wallet and the surroundings!
- Rebates Make it Even Better: Qualify for monetary incentives via the VEU Rebate Program, making the transfer to a warmness pump even more inexpensive.
- Long-Lasting Performance: Enjoy reliable hot water for future years. Heat pumps usually outlast conventional warmers, offering prolonged lifespan and price.
- Low Maintenance, Peace of Mind: Heat pumps require minimal protection, saving you time and cash on protection as compared to traditional heaters.
- Safety First: No combustion way no hazard of fuel leaks or carbon monoxide poisoning. Heat pumps prioritize safety for your own family and home.
- Double Duty: Some warmth pumps even provide heating and cooling talents, supplying yr-spherical comfort manipulate.
Do Heat Pumps Function Effectively in Cold Climates?
Heat pumps can indeed function effectively in cold climates, even in temperatures as low as -25°C, due to their advanced refrigeration technology. The heat pumps we install meet the product performance criteria outlined in VEET Regulations and VEU specifications, including:
- Compliance with AS/NZS 2712 standard.
- Achievement of ≥60% annual energy savings.
- Provision of a minimum water delivery temperature of ≥45°C.
These heat pumps utilize refrigerants with lower boiling points, allowing them to extract heat from sub-zero ambient temperatures. The refrigerant liquid continues to flow through the evaporator coils of the heat pump, ensuring efficient operation even in extremely cold conditions.
Factors Affecting Heat Pump Performance:
- Temperature Set Point Variations: Frequent changes in temperature settings can impact efficiency.
- Compressor Type: The type and quality of the compressor influence heat pump operation.
- Maintenance: Regular maintenance is crucial for optimal performance; neglect can lead to decreased efficiency.
- Leaks: Any leaks in the system can compromise performance and efficiency.
- Size: Proper sizing ensures the heat pump meets the heating and cooling demands of the space.
- Wiring: Incorrect wiring can lead to malfunctions and decreased performance.
- Insulation: Proper insulation, including insulation of the water tank, is essential for efficiency and energy savings.
Factors to Consider Before Installing Heat Pump Hot Water Systems:
Considerations for Installers Before Heat Pump Installation:
- Find the Perfect Spot: Choose a stage, stable floor that offers adequate area for the warmth pump unit.
- Breathe Easy: Ensure right airflow around the unit for green operation.
- Fan Placement: Strategically role the exhaust fan to optimize air movement within the area.
- Right-Sized Tank: Select a warmness pump with a water tank capability that meets your warm water needs.
- Stand Tall: Keep the heat pump upright all through the complete set up method.
After the set up:
- System Check: Let's make sure the whole thing is walking easily! I'll carry out a short gadget take a look at to make certain I'm functioning nicely.
- Wire Safety Check: For your protection, I'll also confirm that there aren't any uncovered wires or electric dangers around us. This is critical to keep away from any capability dangers.
Guide to Selecting the Ideal Heat Pump Size for Your Home
If your hot water usage exceeds the capacity of the tank, it’s advisable to opt for a larger tank size heat pump. Otherwise, you might find yourself running out of hot water frequently. We recommend upgrading to a larger tank size based on your usage needs.
Heat pump size options:
- Small: Suitable for tank sizes of 170-200 litres.
- Medium: Ideal for tank sizes ranging from 215 to 250 litres.
- Large: Designed for tanks larger than 300 litres.
Replace old water heater with air-sourced heat pump
Air-sourced heat pumps are 2 to 3 times more energy-efficient than conventional electric and gas-fired water heaters, making the switch to heat pumps an evident (and earth-friendly) choice. This upgrade is also a financially prudent (and feasible) choice for homeowners and businesses in Victoria.
For example, a case study conducted by the Australia Renewable Energy Agency (ARENA) in August 2022 found that a business in Kyneton, located in central Victoria, slashed their energy costs on water heating and saved over $500,000 in a year by replacing their water heater with a heat pump powered water heating system, coupled with a high voltage power supply upgrade.
How to choose a heat pump water heater?
Here are some major factors that you need to consider when switching from a gas/electric water heater to a heat pump:
- Size
- Types of water heaters
- Energy-efficiency
- COP (Coefficient Of Performance)
- Heating capacity
- Smooth functioning
- Flow rate in case of tankless ASHP water heater
- First hour rating
Types of heat pump driven water heaters
We can classify heat pumps into three major groups:
- Air source heat pumps (ASHPs)
- Absorption heat pumps
- Ground source (or Geothermal) heat pumps (GSHPs)
Air source heat pumps
ASHPs work by using a refrigeration cycle to transfer heat from the air outside the building to the inside of the building. These pumps are much more efficient than typical electric resistance water heaters.
Ground source heat pumps (GSHPs)
Geothermal (ground-source or water-source) heat pumps use soil as the source of heat. Loop pipes are dug into the ground about six feet deep, where the temperature stays constant throughout the year and becomes an efficient heat source.
Absorption heat pumps (AHPs)
Absorption heat pumps (AHPs) that use a different type of mechanism to transfer heat compared to air source heat pumps. Instead of using a refrigeration cycle like ASHPs, AHPs use a chemical process to transfer heat from one place to another.