Heat Pump Hot Water Systems Shepparton
How does the Panasonic CO2 Heat Pump work?
Panasonic CO₂ heat pumps extract renewable heat from the air, which makes heating your hot water more efficient, less costly, and more friendly for the environment.
- An air to water heat pump is a highly efficient system that uses heat from the ambient air for hot water production. Its heat energy output is about three to five times as high as the electricity input required to run it. The Panasonic CO2 Heat Pump, produces domestic hot water at 63°C without requiring an electrical backup and “even at an outside temperature of -10°C”
How does the Panasonic CO2 Heat Pump work?
Panasonic CO₂ heat pumps extract renewable heat from the air, which makes heating your hot water more efficient, less costly, and more friendly for the environment.
- An air to water heat pump is a highly efficient system that uses heat from the ambient air for hot water production. Its heat energy output is about three to five times as high as the electricity input required to run it. The Panasonic CO2 Heat Pump, produces domestic hot water at 63°C without requiring an electrical backup and “even at an outside temperature of -10°C”
How does the Panasonic CO2 Heat Pump work?
Panasonic CO₂ heat pumps extract renewable heat from the air, which makes heating your hot water more efficient, less costly, and more friendly for the environment.
- An air to water heat pump is a highly efficient system that uses heat from the ambient air for hot water production. Its heat energy output is about three to five times as high as the electricity input required to run it. The Panasonic CO2 Heat Pump, produces domestic hot water at 63°C without requiring an electrical backup and “even at an outside temperature of -10°C”
Rheem Heat Pump Water Heaters
Rheem Heat Pump water heaters are an energy efficient, affordable way to heat water. Heat Pumps
use the heat from the surrounding air to heat your water and help reduce your water heating energy
consumption compared to an electric water heater. They work all year round, day or night, in sunshine or
rain and even on cooler days, as there is heat in the atmosphere which can be used.
+Average Heating Capacity (kW) – This is how much heating power is put into the water during the heating cycle. It is
expressed as an average due to the changes in heating power from the refrigeration cycle as the water is being heated and its temperature increases during the heating cycle. Hot Water Recovery Rate @ 45°C rise (L/hr) – Is the
number of litres of water that can be heated through a 45°C temperature rise in one hour, e.g. when the air temperature is
19°C, the Heat Pump can heat 60 litres of water from 15°C to 60°C in one hour.
Rheem Heat Pump Water Heaters
Rheem Heat Pump water heaters are an energy efficient, affordable way to heat water. Heat Pumps use the heat from the surrounding air to heat your water and help reduce your water heating energy consumption compared to an electric water heater. They work all year round, day or night, in sunshine or rain and even on cooler days, as there is heat in the atmosphere which can be used.
+Average Heating Capacity (kW) – This is how much heating power is put into the water during the heating cycle. It is expressed as an average due to the changes in heating power
from the refrigeration cycle as the water is being heated and its temperature increases during the heating cycle.
Hot Water Recovery Rate @ 45°C rise (L/hr) – Is the number of litres of water that can be heated through a 45°C temperature rise in one hour, e.g. when the air temperature is 19°C, the Heat Pump can heat 60 litres of water from 15°C to 60°C in one hour.
Rheem Heat Pump Water Heaters
Rheem Heat Pump water heaters are an energy
efficient, affordable way to heat water. Heat Pumps
use the heat from the surrounding air to heat your
water and help reduce your water heating energy
consumption compared to an electric water heater.
They work all year round, day or night, in sunshine or
rain and even on cooler days, as there is heat in the
atmosphere which can be used.
+Average Heating Capacity (kW) – This is how much heating
power is put into the water during the heating cycle. It is
expressed as an average due to the changes in heating power
from the refrigeration cycle as the water is being heated and
its temperature increases during the heating cycle.
Hot Water Recovery Rate @ 45°C rise (L/hr) – Is the
number of litres of water that can be heated through a 45°C
temperature rise in one hour, e.g. when the air temperature is
19°C, the Heat Pump can heat 60 litres of water from 15°C to
60°C in one hour.
