Heat Pumps
leading the way in Innovative Hot water technology
At Magma Electrical, we put our trust in iStore heat pumps because they offer unparalleled energy efficiency and reliability. iStore heat pumps utilize advanced air-to-energy technology, capturing thermal energy from the air to heat water, which significantly reduces energy consumption and costs. With up to 75% less energy usage compared to traditional hot water systems, iStore heat pumps are an eco-friendly choice that aligns with our commitment to sustainability. Additionally, their robust design and intelligent operating modes ensure consistent performance and ease of use, making them a dependable solution for our clients. By partnering with iStore, we provide our customers with top-tier, cost effective and environmentally friendly hot water solutions to meet their specific needs.
- iStore heat pumps are designed to be highly energy efficient, using up to 75% less energy than traditional hot water systems. This efficiency translates to significant savings on your energy bill.
- By reducing energy consumption, iStore heat pumps can save you up to $1000.00 annually on your energy cost.
- Utilizing air-to-energy technology, iStore heat pumps capture thermal energy from the air to heat water. This innovative approach ensures reliable performance even in varying weather conditions
- iStore heat pumps are suitable for a wide range of applications, from small households to larger commercial setups They can operate efficiently in temperatures as low as 5 degrees. Making them versatile and reliable.
Products we trust
Have questions or need assistance? We're here to help! Contact Magma Electrical for expert advice and personalised service.
Reclaim Heat Pump
The Reclaim Energy CO2 Heat Pump Hot Water System is a cutting-edge solution designed to provide efficient and environmentally friendly hot water. Utilising advanced CO2 refrigerant technology, this system captures ambient heat from air and converts it into energy, significantly reducing electricity consumption and greenhouse gas emissions. With up to 80% energy savings compared to traditional electric and gas water heaters, the Reclaim Energy CO2 Heat Pump is not only cost effective but also highly efficient, even in cold weather conditions. Its smart controller allows for customizable operation, ensuring optimal performance and minimal energy usage. Perfect for both residential and commercial applications, this innovative system is a testament to Reclaims Energy commitment to sustainability and energy efficiency.
Sanden Eco Plus Hot Water Heat Pump
The Sanden Eco® Plus Hot Water Heat Pump System is an innovative and energy-efficient solution for your hot water needs. Utilizing advanced CO2 refrigerant technology, this system absorbs heat from the air and transfers it to heat water, significantly reducing energy consumption and greenhouse gas emissions. With a high Coefficient of Performance (COP) of 5.0, the Sanden heat pump offers up to 80% savings on your hot water energy costs compared to traditional electric systems. Its robust design includes premium Japanese-made components and Australian-made stainless steel tanks, ensuring durability and reliability. Easy to install and environmentally friendly, the Sanden Eco® Plus is the perfect choice for both residential and commercial applications, providing sustainable hot water solutions for a greener future.
Brands We Trust
for Your Energy Needs
Frequently
asked questions
Here you’ll find answers to the most common questions about our trusted products. Our goal is to provide you with clear and concise information to help you make informed decisions about your purchases.
If you don’t find the answer you’re looking for, feel free to contact us - We’re always here to help!
Are there any environmental or safety concerns with hot water heat pumps?
Environmental Impact:
- Refrigerants: Modern units use environmentally friendly refrigerants, but it’s important to ensure proper handling during servicing.
- Energy Efficiency: Generally lower environmental impact compared to gas or electric water heaters.
Safety Concerns:
- Installation: Must be installed by a qualified professional to ensure safety and compliance with regulations.
Considerations:
- Compliance: Ensure the unit meets local environmental and safety standards.
What are the noise levels of hot water heat pumps?
Noise Levels:
- Typical Range: Heat pumps usually produce noise levels between 40 to 60 decibels, similar to a quiet conversation or air conditioning unit.
Considerations:
- Location: Install in a location that minimises noise disturbance to occupants and neighbours.
What are the benefits of using a hot water heat pump?
Benefits:
- Energy Efficiency: Heat pumps are more energy-efficient compared to traditional electric water heaters because they use ambient heat rather than generating heat directly.
- Lower Running Costs: Reduced energy consumption leads to lower electricity bills.
- Environmental Impact: Lower greenhouse gas emissions compared to gas or electric heaters.
- Reliability: Provides consistent hot water supply.
How much does it cost to install a hot water heat pump?
Costs:
- Unit Cost: Generally ranges from $2500 to $6000, depending on the size and brand.
- Installation Cost: Can add $1,000 to $3,000, depending on complexity and any required modifications to your home’s plumbing and electrical systems.
Considerations:
- Incentives and Rebates: Both Federal and State rebates are in place to help reduce the upfront costs of your heat pump.
What is a hot water heat pump, and how does it work?
Description: A hot water heat pump is a device that heats water by transferring heat from the air or ground to the water tank using a refrigeration cycle. It works similarly to an air conditioner but in reverse.
How It Works:
- Heat Absorption: The pump absorbs heat from the air (or ground) through an evaporator coil.
- Heat Transfer: The absorbed heat is transferred to a refrigerant, which is then compressed to increase its temperature.
- Heat Delivery: The hot refrigerant gas heats the water in the storage tank through a heat exchanger.