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 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
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.
We choose MITSUBISHI compressor for the heat pump. It ensures stable working in the perfect performance.
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.
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.
• 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
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 !
Heat pumps are an essential component of HVAC systems, providing efficient heating and cooling solutions for both residential and commercial buildings. when it comes to the electricity they consume, one of the most important considerations is whether to opt for a single-phase or three-phase heat pump.
Clearly, there are numerous distinctions among these entities, and they can be outlined as follows:
In general, smaller heat pumps typically require a one-phase electrical connection, while the bigger units utilize a three-phase power source. The former is suitable for capacities of around 35kW. Nevertheless, in the coming years, all heat pumps will be equipped with three-phase capabilities.
Heat pumps that operate on a single phase require 220 to 240 volts and rely on one live wire and another neutral wire. Conversely, three-phase heat pumps operate on 380 to 415 volts and consist of three live wires and occasionally a neutral wire.
The final distinction between these two units lies in their intended markets - one is designed for the European market while the other caters to the UK market.
Choosing between a single-phase and three-phase heat pump for your HVAC system requires careful consideration of your specific needs, budget, and available electrical infrastructure. While single-phase heat pumps are more cost-effective and easier to install, they may not be suitable for larger buildings or areas with high heating or cooling demands. On the other hand, three-phase heat pumps offer higher power capacity, energy efficiency, and durability, but come with a higher price tag and installation challenges.
Single-phase heat pumps are designed to operate on a standard residential electrical system, which typically provides 120 to 240 volts of alternating current (AC) power. These heat pumps are commonly used in smaller residential properties and light commercial applications. They are more straightforward to install and generally cost less than their three-phase counterparts.
Cost-effectiveness
Single-phase heat pumps are often more affordable than three-phase units, making them a popular choice for budget-conscious consumers.
Simplicity
These heat pumps are easier to install and require less complex electrical wiring, reducing both installation time and costs.
Availability
Single-phase heat pumps are widely available, making them easily accessible for homeowners and small businesses.
Power limitations
Single-phase heat pumps have a lower power capacity compared to three-phase units. This can limit their performance in larger buildings or areas with high heating or cooling demands.
Efficiency
Due to their lower power capacity, single-phase heat pumps may not achieve the same level of energy efficiency as three-phase units. This can result in higher energy consumption and operating costs over time.
Motor wear
he single-phase motor in these heat pumps tends to experience more wear and tear due to higher electrical currents, potentially leading to more frequent maintenance and repairs.
Air-to-water heat pumps are experiencing a surge in popularity as homeowners seek affordable and environmentally-friendly heating solutions. By harnessing the ambient air to generate heat, these heat pumps have emerged as reliable and efficient options for those aiming to reduce their carbon footprint and conserve energy. Now, let's delve into the specifics of air-to-water heat pumps and their effectiveness.
When utilizing an air-to-water heat pump, you can reduce your annual carbon emissions by an impressive 2,800 kg of CO2, which is equivalent to consuming over 1000 liters of gasoline! This remarkable reduction occurs because the heat pump generates a greater amount of heat compared to the electricity it consumes.
Though air-to-water heat pumps rely on electricity, they surpass traditional heating systems in terms of efficiency. Through the utilization of components such as condensers, heat exchangers, and refrigerants, these pumps generate significantly more thermal energy than the electricity they consume.
In reality, air-to-water heat pumps exhibit a performance rate of 200% to 400%, also known as a coefficient of performance (COP) of 2 to 4. This indicates that they can produce up to four times the amount of energy they consume. By harnessing low-grade ambient air and transferring it through the system, these heat pumps efficiently create heating and hot water for residential use.
Ultimately, as long as your heat pump has a COP exceeding 1, you are generating more heat energy than the electrical energy you consume. In general, air-to-water heat pumps demonstrate a COP of approximately 3, signifying that they produce three times more heat than the electricity they consume.
Air-to-water heat pumps have gained popularity due to the increasing demand for cost-effective and environmentally friendly heating solutions. By utilizing ambient air to generate heat, these heat pumps have become a reliable and efficient option for homeowners seeking to reduce their carbon footprint and save energy. Let's delve into the details of air-to-water heat pumps and their effectiveness.
When utilizing an air-to-water heat pump, you can reduce your annual carbon emissions by up to 2,800 kg of CO2, which is equivalent to consuming over 1,000 liters of gasoline. This is made possible because these pumps generate a higher amount of heat compared to the electricity they consume.
Despite relying on electricity, air-to-water heat pumps outperform traditional heating systems in terms of efficiency. Through the utilization of a condenser, heat exchanger, and refrigerant, these pumps generate significantly more thermal energy than the electricity they consume.
In practice, an air-to-water heat pump typically performs at a rate of 200%-400%, also known as a coefficient of performance (COP) of 2 to 4. This means that it can generate up to four times the amount of heat compared to the electricity it consumes. By harnessing low-quality air and transferring it through the system, these heat pumps efficiently provide heating and hot water for your home.
Ultimately, as long as your heat pump achieves a COP greater than 1, you are producing more heat energy than the electrical energy you are utilizing. Generally, air-to-water heat pumps exhibit a COP of approximately 3, which indicates that they produce three times more heat than the amount of electricity they consume.
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 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
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.
We choose MITSUBISHI compressor for the heat pump. It ensures stable working in the perfect performance.
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.
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.
• 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
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 !
Heat pumps are an essential component of HVAC systems, providing efficient heating and cooling solutions for both residential and commercial buildings. when it comes to the electricity they consume, one of the most important considerations is whether to opt for a single-phase or three-phase heat pump.
Clearly, there are numerous distinctions among these entities, and they can be outlined as follows:
In general, smaller heat pumps typically require a one-phase electrical connection, while the bigger units utilize a three-phase power source. The former is suitable for capacities of around 35kW. Nevertheless, in the coming years, all heat pumps will be equipped with three-phase capabilities.
Heat pumps that operate on a single phase require 220 to 240 volts and rely on one live wire and another neutral wire. Conversely, three-phase heat pumps operate on 380 to 415 volts and consist of three live wires and occasionally a neutral wire.
The final distinction between these two units lies in their intended markets - one is designed for the European market while the other caters to the UK market.
Choosing between a single-phase and three-phase heat pump for your HVAC system requires careful consideration of your specific needs, budget, and available electrical infrastructure. While single-phase heat pumps are more cost-effective and easier to install, they may not be suitable for larger buildings or areas with high heating or cooling demands. On the other hand, three-phase heat pumps offer higher power capacity, energy efficiency, and durability, but come with a higher price tag and installation challenges.
Single-phase heat pumps are designed to operate on a standard residential electrical system, which typically provides 120 to 240 volts of alternating current (AC) power. These heat pumps are commonly used in smaller residential properties and light commercial applications. They are more straightforward to install and generally cost less than their three-phase counterparts.
Cost-effectiveness
Single-phase heat pumps are often more affordable than three-phase units, making them a popular choice for budget-conscious consumers.
Simplicity
These heat pumps are easier to install and require less complex electrical wiring, reducing both installation time and costs.
Availability
Single-phase heat pumps are widely available, making them easily accessible for homeowners and small businesses.
Power limitations
Single-phase heat pumps have a lower power capacity compared to three-phase units. This can limit their performance in larger buildings or areas with high heating or cooling demands.
Efficiency
Due to their lower power capacity, single-phase heat pumps may not achieve the same level of energy efficiency as three-phase units. This can result in higher energy consumption and operating costs over time.
Motor wear
he single-phase motor in these heat pumps tends to experience more wear and tear due to higher electrical currents, potentially leading to more frequent maintenance and repairs.
Air-to-water heat pumps are experiencing a surge in popularity as homeowners seek affordable and environmentally-friendly heating solutions. By harnessing the ambient air to generate heat, these heat pumps have emerged as reliable and efficient options for those aiming to reduce their carbon footprint and conserve energy. Now, let's delve into the specifics of air-to-water heat pumps and their effectiveness.
When utilizing an air-to-water heat pump, you can reduce your annual carbon emissions by an impressive 2,800 kg of CO2, which is equivalent to consuming over 1000 liters of gasoline! This remarkable reduction occurs because the heat pump generates a greater amount of heat compared to the electricity it consumes.
Though air-to-water heat pumps rely on electricity, they surpass traditional heating systems in terms of efficiency. Through the utilization of components such as condensers, heat exchangers, and refrigerants, these pumps generate significantly more thermal energy than the electricity they consume.
In reality, air-to-water heat pumps exhibit a performance rate of 200% to 400%, also known as a coefficient of performance (COP) of 2 to 4. This indicates that they can produce up to four times the amount of energy they consume. By harnessing low-grade ambient air and transferring it through the system, these heat pumps efficiently create heating and hot water for residential use.
Ultimately, as long as your heat pump has a COP exceeding 1, you are generating more heat energy than the electrical energy you consume. In general, air-to-water heat pumps demonstrate a COP of approximately 3, signifying that they produce three times more heat than the electricity they consume.
Air-to-water heat pumps have gained popularity due to the increasing demand for cost-effective and environmentally friendly heating solutions. By utilizing ambient air to generate heat, these heat pumps have become a reliable and efficient option for homeowners seeking to reduce their carbon footprint and save energy. Let's delve into the details of air-to-water heat pumps and their effectiveness.
When utilizing an air-to-water heat pump, you can reduce your annual carbon emissions by up to 2,800 kg of CO2, which is equivalent to consuming over 1,000 liters of gasoline. This is made possible because these pumps generate a higher amount of heat compared to the electricity they consume.
Despite relying on electricity, air-to-water heat pumps outperform traditional heating systems in terms of efficiency. Through the utilization of a condenser, heat exchanger, and refrigerant, these pumps generate significantly more thermal energy than the electricity they consume.
In practice, an air-to-water heat pump typically performs at a rate of 200%-400%, also known as a coefficient of performance (COP) of 2 to 4. This means that it can generate up to four times the amount of heat compared to the electricity it consumes. By harnessing low-quality air and transferring it through the system, these heat pumps efficiently provide heating and hot water for your home.
Ultimately, as long as your heat pump achieves a COP greater than 1, you are producing more heat energy than the electrical energy you are utilizing. Generally, air-to-water heat pumps exhibit a COP of approximately 3, which indicates that they produce three times more heat than the amount of electricity they consume.
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