R32 High Efficiency Residential Inverter Monoblock Air Source Heat Pump
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R32 High Efficiency Residential Inverter Monoblock Air Source Heat Pump

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Monoblock system:

In the monoblock type heat pump, the refrigerant system is completely integrated in the external unit. Such a solution ensures, above all, good thermal insulation, space saving and quiet operation of the device. In addition, the compact design ensures easy installation and simple maintenance.

R32 monoblock heat pump


feature

Features:

  • R32 Gas-Low GWP

  • Good SCOP, energy label rating W35℃ A+++/ W55℃ A++

  • Smart logic to control multiple heat source

  • Climate curves suitable for different countries

  • House heating,cooling and domestic hot water

  • Full inverter system,Stable and efficient performance


ENERGY EFFICIENCY RATING LABEL

Space heating Series is specially developed with the most cutting-edge heat pump technology and modern design to meet stringent requirements for efficiency, stability and quietness. Not only does Space heating Series use R32 green gas, but also is rated with A+++ energy label. With top energy rating A+++, the unit is energy efficient and can greatly reduce energy bills for users.

R32_monoblock


key function

Key Functions:


R32 environmental refrigerant

R32 environmental refrigerant









Air source heat pumps using R32 refrigerants can not only improve the efficiency and energy utilization of equipment, but also help reduce damage to the atmosphere, making them more environmentally friendly.




MITSUBISHI Compressor

We choose MITSUBISHI compressor for the heat pump. It ensures stable working in the perfect performance.




MITSUBISHI ELECTRIC

MITSUBISHI Compressor


DHW tank disinfection

The DHW tank disinfection function is used to kill legionella by 65°C water to ensure the health and safety.


DHW tank disinfection    






Climate curve

You can choose different climate correlation curves or your own customised curve. Once the curve is selected, the unit sets the outlet water temperature automatically according to the outdoor ambient air temperature.


Climate curve


Floor preheating and drying

Protect your home floor by activating the Floor Preheating function which slowly increases the heating temperature of the floor coils, avoiding possible floor damaging and transitioning smoothly to the heating function. The Floor Drying Up function provides an additional solution to the installer as it helps remove any residual moisture from newly installed floor coils, further protecting the installation and ensuring the optimal and effective operation of the heat pump.


Floor preheating and drying


Two heating circuits

Two heating circuits [as standard]

• More flexibility thanks to two control zones

• Independent control of underfloor heating and radiator heating temperature

• No need to purchase an extension module for second heating system

Two heating circuits



Application with multiple heat source

Application with multiple heat source


Smart design to work with other heating facilities in your house, like solar, gas boiler and etc, make sure you to pay the lowest bill for heating !


Application with multiple heat source


What is an Air to Water Heat Pump?

As people become more conscious of the impact of their energy consumption on the environment and their wallet, they are turning to alternate energy sources to heat and cool their homes.One such technology that has gained popularity in recent years is the air to water heat pump.In this article, we will explore what an air to water heat pump is, how it works, and why it may be a good option for your home.


There are different types heat pumps:air source heat pump,ground source heat pump,water source heat pump.


And there are two main types of air source heat pumps(ASAP):air-to-water and air-to-air.


Air to water heat pumps can provide efficient heating and cooling for your home, especially if you live in a temperate climate.With proper installation, an air-to-water heat pump can provide a home with from one and a half to three times more thermal energy than it spends on electricity.This can occur due to the fact that the heat pump transfers heat rather than converting it from one type of fuel as is done in conventional combustion heating systems.


How Does an Air to Water Heat Pump Work?

An air-to-water heat pump works by extracting heat from the air, which is then transferred to a refrigerant fluid in the system.         This fluid is then compressed, which elevates its temperature and releases the heat into a heat exchanger.         From there, the heat is transferred to a water-based heating system that distributes it through radiators, underfloor heating pipes, or fan coils to provide warmth in the building.        In addition to providing warmth in the building,air-to-water heat pumps also can cool a whole house, and offer domestic hot water.


Why Choose Air to Water Heat Pump?

1. Ecological Energy source

2. User comfort

3. Low operating costs

4. Reduced CO2 emission

5. Safe use

6. Comfort all year round


Conclusion:

In summary, an air to water heat pump is a highly efficient and cost-effective heating system that uses energy from the air outside your home to heat your water.

Efficiency Performance:

The efficiency of a heat pump is evaluated through its Coefficient of Performance (COP), which quantifies the heat produced per unit of electricity consumed. It's important to note that efficiency tends to decrease as temperatures drop to extremes.


For instance, under moderate temperatures, the COP can reach approximately 4.0. However, as the temperature drops to 0°C, the COP may decrease to around 2.5. On average, typical heat pumps exhibit a seasonal COP variation ranging from 2.5 to 2.8. Nevertheless, certain heat pump models perform exceptionally well in mild climate conditions.


When selecting a heat pump, it's crucial to consider that a higher COP corresponds to greater efficiency and more effective heat delivery. A COP value of 3 implies that you receive 3kWh of heat output for every 1kWh of electricity used to operate the pump. Higher COP values indicate relatively more efficient heat delivery.


Improved Energy Efficiency: One of the primary advantages of air source heat pumps is their exceptional efficiency. Unlike traditional heating systems that rely on burning fossil fuels, air source heat pumps transfer heat from one location to another instead of generating it. This process requires substantially less energy, resulting in lower energy consumption and reduced carbon emissions.


The performance of an air source heat pump is often evaluated through its Coefficient of Performance (COP). The COP represents the ratio of heat output to electrical energy input. Typically, a well-designed air source heat pump can achieve a COP ranging from 3 to 4. This means that for every unit of electricity consumed, the heat pump can produce three to four units of heat. This impressive COP not only demonstrates the efficiency of air source heat pumps but also highlights their cost-effectiveness as a heating solution.


Air source heat pumps provide an efficient and sustainable solution for both heating and cooling requirements. With their exceptional performance, energy savings, and environmental benefits, they have gained popularity among homeowners and businesses alike. As technology continues to advance, air source heat pumps are expected to become even more efficient and affordable, further establishing their significance in the transition towards a greener future.


Efficiency Performance:

Performance in terms of efficiency: Efficiency is a crucial factor when considering heat pump performance.  The efficiency of a heat pump is evaluated through its Coefficient of Performance (COP), which indicates the heat produced per unit of electricity consumed.  It's important to note that efficiency tends to decrease in extremely cold temperatures.


The impact of temperature on efficiency: In mild temperatures, the COP of a heat pump can reach approximately 4.0.  However, as the temperature drops to 0°C, the COP can decrease to around 2.5.  On average, heat pumps exhibit a seasonal COP variation ranging from 2.5 to 2.8.  However, certain heat pump models excel in mild climates, providing better performance.


Importance of COP in choosing a heat pump: When selecting a heat pump, it is essential to consider COP as it indicates efficiency and effective heat delivery.  A higher COP implies greater efficiency, resulting in more efficient heat delivery.  For instance, a COP value of 3 means you can receive 3 kWh of heat output for every 1 kWh of electricity used to operate the pump.  Higher COP values signify relatively more efficient heat delivery.


Efficiency benefits of air source heat pumps: Air source heat pumps offer a notable advantage in terms of efficiency.  Unlike traditional heating systems that rely on burning fossil fuels, these pumps simply move existing heat from one location to another.  This process requires significantly less energy, leading to lower energy consumption and reduced carbon emissions.


The measurement of efficiency with COP: The efficiency of air source heat pumps is commonly measured using COP, which represents the ratio of heat output to electrical energy input.  A well-designed air source heat pump typically achieves a COP of 3 to 4, implying that it can generate three to four units of heat for every unit of electricity consumed.  This high COP makes air source heat pumps a cost-effective and efficient heating solution.


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