WHY CHOOSE ENVIROHEAT FOR YOUR ELECTRIC HOT WATER?

This renewable energy water heating technology will reduce home energy costs whilst providing a plentiful supply of hot water day and night in all weather conditions.
Hot water is a basic household need and there are few things more soothing than relaxing in a warm shower or bath. There are however, few things more frustrating than running out of hot water just when you want it. With a heat pump, reliable hot water is always on tap, regardless of the weather. An energy efficient heat pump is a great way for households to reduce their energy consumption and cost of living. They are ideal for the replacement off old electric water heaters, where residential gas reticulation is not available and when roof- mounted solar collectors are not feasible.

Features include:

  • 250 Litre size
  • 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.

Standard Heat Pump vs Micro-Channel

HOW DO HEAT PUMPS WORK ?

To understand the concept of heat pumps, imagine a refrigerator working in reverse. While a refrigerator removes heat from an enclosed box and expels that heat to the surrounding air, a Heat Pump takes the heat from surrounding air and transfers it to water in an enclosed tank.

Heat pump technology makes efficient use of the heat in the surrounding air, even at temperatures as low as -7C. In fact the Enviroheat system is so efficient that it can convert 1kW of electricity into over 4kW of heat.

  • A fan draws in air containing heat energy, across the evaporator
  • The evaporator turns the liquid refrigerant into gas
  • The compressor pressurises the refrigerant into hot gas
  • The hot gas inside the condenser coil heats the water inside the tank
  • The refrigerant reverts back to a liquid after expansion & continues back to the evaporator for the process to start again
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