Swimming Pool Heat Pump is equipped with high-quality brand scroll compressors, with stable operation, low vibration, low noise, and low failure rate; key components such as thermal expansion valves, electronic appliances, etc. are well-known brand components with reliable performance.

How to choose a truly eco-friendly Swimming Pool Heat Pump?

What is the function of the Swimming Pool Heat Pump damping system?

Why choose an energy-efficient Swimming Pool Heat Pump?

How to choose a truly eco-friendly Swimming Pool Heat Pump?

The initial heating determines the model selection. The real energy saving stage of the Swimming Pool Heat Pump depends on the "constant temperature" period.

Select frequency conversion, more energy saving, the key to Swimming Pool Heat Pump lies in the operation logic of frequency conversion technology. In the constant temperature stage, the frequency conversion technology can enable the equipment to operate intelligently at a low frequency and match the real-time heating demand. There is no need to continuously heat the pool water by repeatedly starting and stopping like a fixed-frequency heat pump, so as to achieve the purpose of energy saving. We can compare the energy saving performance of fixed frequency heat pump and variable frequency heat pump under the same conditions.

Due to the difference in temperature, the heating efficiency of the heat pump will also be different. To compare the energy-saving effect in the constant temperature stage, we chose a fixed-frequency heat pump with the same heating level as the variable-frequency heat pump (IPHC150T) selected in the previous step at an air temperature of 26 °C (26 °C is generally used as the test temperature in the laboratory). Frequency selection is 60kw.

What is the function of the Swimming Pool Heat Pump damping system?

① The independent suspension shock absorption system makes the fan and motor run more quietly and reduces the noise caused by air disturbance.

② An integral base carries the fan and the motor, and according to the load-bearing distribution of each part, different types and quantities of shock absorbers are correspondingly configured to avoid jumping, anti-vibration and resonance, and make the operation of the fan and the motor more stable.

③ The fan and the box are isolated by flexible connection to avoid vibration transmission.

Why choose an energy-efficient Swimming Pool Heat Pump?

Considering indoor air quality, Swimming Pool Heat Pump is equipped with fresh air treatment function and exhaust function.

Considering the operating cost of the constant temperature heat removal pump unit, the Swimming Pool Heat Pump can use a large amount of outdoor low-humidity fresh air to adjust the humidity of the indoor air in spring and autumn, reducing operating costs.

In order to prevent the circulating air from affecting the service life of the Swimming Pool Heat Pump, the key components and sheet metal structure of the equipment are treated with anti-corrosion during the manufacturing process, and the compressor, power distribution cabinet and control system are isolated from the wind system.

Guangdong JNOD New Energy Technology Co., LTD. is committed to providing customers the best hot water & heating solutions with our heat pump products, focusing on the latest technologies, strive for outstanding quality in our products and customer service.

Air heat pump water heater has low energy consumption (power consumption saves more than 2/3 compared to conventional electric water heaters), high thermal efficiency (heating speed is four times higher than conventional electric water heaters), Environmental protection and energy saving (reduces more than 2/3 compared to conventional electric water heaters) carbon dioxide emissions).

What are the differences between heat pump water heaters and air conditioners?

Why do heat pump water heaters improve the consumer experience?

What is the working process of the heat pump water heater?

What are the differences between heat pump water heaters and air conditioners?

The operating mode of the heat pump water heater is very different from that of the air conditioner, which determines the difference in the design concept between the heat pump compressor and the air conditioner compressor. Trouble-free, long-term stable operation of heat pump water heaters Compared to air conditioning systems, there is a big difference in the operating time. The operating time of heat pump water heater systems is much longer than that of air conditioning systems. The operating time of a heat pump water heater depends on the following factors: Air conditioning systems are often used in summer, but water heaters are mass-produced and run particularly long in winter. The time for heating a water tank in winter is several times as long as in summer, so it is necessary to confirm the operating mode of the heat pump water heater in winter.

Why do heat pump water heaters improve the consumer experience?

According to statistical calculations, 2/3 of the service life of the heat pump water heater is consumed in winter. Since the water outlet temperature of the heat pump is over 55°C, the temperature of the water tank decreases when using. The liquefaction temperature is the main factor affecting the service life of the compressor. Under the condition of simultaneous operation, the total load of the compressor in the heat pump water heater is much higher than that of the compressor in the air conditioning system. The main motivation for consumers to buy water heaters with heat pump is energy saving and comfort. Consumers will thus consume more water, which also extends the working time of the heat pump. If the heat pump water heater is used for heating and service water applications, it can run for a long time during the heating period. From the combination of the above factors, it is evident that the main motor of the heat pump water heater will develop in the direction of miniaturization, and the actual operating time will be greatly extended.

What is the working process of the heat pump water heater?

A water heater with compression heat pump mainly consists of evaporator, compressor, condenser and expansion valve. Thermal Circular Process Throttling → Re-evaporation, whereby heat from the environment is transferred to the water.

Guangdong JNOD New Power Technology Co., LTD. sales team has extensive experience in overseas markets. We provide sincere and professional services, including OEM/ODM/project services, technology support, market analysis, use of design and assembly of installation. We have provided marketing consulting services and business solutions to customers from over 40 countries.

March 4^th Alibaba Show For Electric Boiler And Heat Pump

Hello everyone, After a pleasant Chinese New Year holiday, we are very happy to meet you again in Alibaba's live broadcast room at 20:00 on March 4th .This time we will show you our latest electric boiler and heat pump products.

Highly welcome everyone to join and interact with us. You may get the latest market info sharing from it. Looking forward to cooperate with you.

A big discount and free sample will be offered during the show. We are waiting you.

Here's the link to watch our show：

https://www.alibaba.com/live/jnod-new-energy-technology-central-heating_79c95335-de87-4ff0-82e5-c4dcb95bdf44.html?referrer=SellerCopy

Air source heat pumps are a relatively new technology that can be used to heat your property in a more environmentally friendly and energy efficient way. As they use the ambient air outside of the property as their heat source, there is no need for a gas supply. This makes them a suitable heating solution for most homes, regardless of whether they are connected to the gas network.

How does an air source heat pump work?

There are 2 types of air source heat pump: air to water and air to air. This is how each of them works.

How an air to water heat pump works

Here is a step by step breakdown of how an air to water heat pump works:

1.    The heat pump has an outdoor unit, which contains a fan that draws air in from outside the property. This air then passes over tubes or coils filled with liquid refrigerant.

2.    The liquid refrigerant is much colder than the ambient temperature, even if the outside air is at sub-zero temperatures, and begins to heat up when air is passed over it.

3.    As the refrigerant continues to heat up, it becomes steam which is moved to a compressor. This compresses the steam which raises the temperature of the refrigerant even further.

4.    The heat of the refrigerant is then transferred to the water in the central heating system in your home, and any water stored in a hot water tank, for hot running water.

5.    The refrigerant, which has now passed on its heat, is then cooled and cycled back to begin the process again.

How an air to water heat pump works

Air to air heat pumps are essentially updated versions of air conditioning units that don't only cool air, but can also heat it. They work in the same way as an air to water heat pump, but transfer heat to the air in a ventilation system, rather than to the water in a central heating system.
A big drawback of air to air heat pumps is that they require a property to have air ducts installed throughout, in which to distribute warm air. They are also incapable of heating running water. This means they are not generally suitable for existing and older properties.

We have provided an in depth comparison of these heat pumps in our Air to Water Heat Pumps vs Air to Air Heat Pumps article.

Different types of air source heat pump

Not only are there air to water and air to air heat pumps, but each of these types of air source heat pump is generally available in different models. Namely monobloc air source heat pumps and split air source heat pumps.

Monobloc heat pumps

These are a large single outdoor fan unit which connects directly to the central heating system and will need to be located close to your property. There is no indoor unit, which can help to free-up space inside your property.

Split heat pumps

Split heat pumps consist of 2 main units: the outdoor fan unit and the indoor heating and cooling unit. These generally take up less space outside, but will require the use of some inside space.

To understand the pros and cons of monobloc and split air source heat pumps, and to find out more about how they differ, you can go to our article: Split Heat Pumps vs Monobloc Heat Pumps

Air source heat pump temperatures

Air to water heat pumps often come in 2 separate temperature ranges: low temperature and high temperature. It's important to know what each of these temperature types are as they could affect your installation costs.

Low temperature heat pumps

While traditional gas boilers will heat the water in a central heating system to temperatures of around 80°C to ensure the radiators around the property are providing ample heat. Low temperature air source heat pumps are only capable of heating radiators to a temperature of around 60°C. Due to the lower maximum temperature these heat pumps are capable of producing, more heated surface area is required to keep a property warm. This means you will need bigger radiators or underfloor heating to truly benefit from the installation of a low temperature heat pump.

High temperature heat pumps

Generally, high temperature air source heat pumps are capable of heating the water in a central heating system to around 75°C – 80°C. This is more in line with the temperatures provided by gas boilers. This makes them easier to integrate into an existing traditional heating system, but they do require more power to run.

For an in depth comparison and explanation of different temperature levels in heat pumps, check out our Low Temperature vs High Temperature Air Source Heat Pumps article.

The benefits & disadvantages of an air source heat pump

There are many benefits to getting an air source heat pump installed at your property, but there are some disadvantages too. To help you make the right decision for your home, we created the article: Air Source Heat Pumps vs Gas Boilers. This covers the advantages and disadvantages of each technology, cost comparisons and things you will need to consider when getting either heating solution installed.

Finding an Installer

As air source heat pumps are a relatively new technology, you may find it harder to find a heating engineer in your area that's well versed with installing them. More and more heating engineers are starting to adopt air source heat pumps as a heating solution they will install, but it may not be clear where to find them.
Fortunately, this is something we can help with. Simply click the link below and we'll find you up to 3 quotes from air source trained heating engineers in your area.

The Heating and Cooling Heat Pump is driven by an electric motor, uses the heat in the air as a low-temperature heat source, exchanges heat through the air conditioner condenser or evaporator, and then passes through the circulation system to extract or release heat energy, and use the unit circulation system to transfer the energy to the building. It can meet the needs of users for domestic hot water, floor heating or air conditioning.

What is the cycle between the Heating and Cooling Heat Pump and the natural environment?

What is the principle of Heating and Cooling Heat Pump?

Does the Heating and Cooling Heat Pump make noise?

What is the cycle between the Heating and Cooling Heat Pump and the natural environment?

The compressor outlet of the Heating and Cooling Heat Pump is high-temperature and high-pressure gas, which is transformed into a high-pressure and low-temperature vapor-liquid mixture through the heat exchange of the condenser. The low-temperature gas enters the evaporator to evaporate and absorb heat, and absorb the low-grade heat energy from the outside world (which can be rivers, lakes, groundwater, underground soil layers, air, etc., which we call water source, ground source, and air source heat pump), and finally the evaporator comes out. The low pressure gas enters the compressor to complete the cycle.

What is the principle of Heating and Cooling Heat Pump?

Heating and Cooling Heat Pump is an evolved product of air conditioners. An electromagnetic four-way valve (also known as a reversing valve) is installed in the refrigeration system. Through the switching direction of the four-way valve, the flow direction of the refrigerant is changed, and the air conditioner can hot. The high-temperature and high-pressure vapor-like refrigerant discharged from the compressor flows to the condenser in the heat preservation water tank, transfers heat to the tap water passing through the water tank, and then throttles and reduces the pressure through the expansion valve, and evaporates and absorbs heat in the evaporator of the main outdoor heat pump group. Use the working fluid to absorb the heat in the outdoor air. The Heating and Cooling Heat Pump absorbs the heat in the outdoor air and transfers it to the tap water in the insulated water tank. It is more energy-saving, fast and safe than simply heating with an electric heater, and the outdoor thermal energy potential is infinite.

Does the Heating and Cooling Heat Pump make noise?

Noise problem, almost all of today's Heating and Cooling Heat Pumps use full frequency conversion technology, indoor unit frequency conversion, heat pump host frequency conversion, fan frequency conversion, etc. The noise value of the heat pump host is below 45 decibels, and the indoor noise is still below 20 decibels. Neither users nor neighbors will be affected.

JNOD has a complete heat pump industry chain, and its products involve Swimming Pool Heat Pump, House Heating & Cooling Heat Pump, Domestic Hot Water Heat Pump, Heat Pump Dehumidifier, Commercial & Industrial High Temperature Water Heating Solution, Industrial and Agricultural Heat Pump Dryer, etc. The ultra-low temperature EVI heat pump has been widely used, too.

If you're thinking of getting a new air source heat pump, one of the things you will need to consider is what type of heat pump suits your property best, a monobloc or a split unit.

What is a monobloc air source heat pump?

A monobloc air source heat pump comes in one single outdoor unit. This connects directly to the heating system of a property and can be controlled by an indoor control panel or thermostat. There is often also an outdoor control panel for the unit.

Benefits of a monobloc heat pump

There are several benefits to choosing a monobloc air source heat pump-which we have detailed below.

More indoor space

As monobloc air source heat pumps are single outdoor units, they are very effective at providing more space inside your property. Depending on what kind of boiler you had installed previously, you could gain some indoor space from where the boiler used to be.

Easier to install

Monobloc units are self-contained, meaning there is no need for the connection of refrigerant pipes. This means any trained heating engineer should be able to install one with little difficulty, as the only connections that need to be made are those of water pipes to the central heating system. Due to the simplicity of their installation, monobloc air source heat pumps can be installed quickly which, in turn, makes their installation less costly.

Easy to maintain

Due to their all-in-one design, monobloc heat pumps are easy to maintain. While this is more of a benefit to heating engineers that will be doing the maintenance, it could also mean that having someone at your property to run maintenance on your heat pump will take less time out of your day.

Disadvantages of a monobloc heat pump

When choosing the best heat pump for your property, it is important to consider the disadvantages of each unit too. You can find the disadvantages of installing a monobloc heat pump below.

No hot water

Whilst you can have a monobloc air source heat pump connected directly to your central heating system, to heat the water in your radiators or underfloor heating, you will not get any hot running water without the installation of a separate hot water storage tank. If you already have a regular boiler or system boiler installed at your property, this will only mean replacing the existing hot water tank. However, if you have a combi boiler, a new hot water storage tank will likely take up space in your property that was previously free.

Lack of flexibility

Monobloc air source heat pumps have to be connected directly to the central heating system in a property. This means they will need to be located on an outer wall of your property with very little flexibility regarding whereabouts they can be installed.

Less outdoor space

A big drawback of monobloc air source heat pumps is their size. Due to them being an all-in-one unit, there is a lot of technology to fit in a single box. This makes them very large. If you have a small garden or your home has little or no front garden, you are going to struggle to find enough space to install a monobloc unit. Even if you do have enough space at the back of your property, the unit still needs a reasonably clear area around it to allow it to work at peak efficiency.

What is a split air source heat pump?

Split air source heat pumps consist of an outdoor fan unit and an indoor hydro unit. While the outdoor fan unit extracts ambient air from outside the property, the indoor unit heats the refrigerant and transfers its heat to the water in the central heating system. It also acts as a thermostat and control panel.

Benefits of a split air source heat pump

When choosing a split air source heat pump over a monobloc heat pump, there are several benefits which we have detailed below.

More outdoor space

The outdoor units of split air source heat pumps are considerably smaller than their monobloc counterparts and will take up far less space outside of your property. Due to their smaller size, they are generally quieter to run as well.

Hot running water

Depending on the split air source heat pump you choose, you may not need a separate hot water storage tank to allow for hot running water in your home. This is because several indoor unit options include an integrated hot water storage tank in their design. These units can completely negate the need for a separate hot water storage tank, or reduce the size of a separate hot water storage tank you will need, depending on the unit you choose.

Flexible installation

As the indoor unit of a split heat pump is the only part that's connected to the central heating system, this gives you more freedom with where you can place the outdoor unit. Some split air source heat pumps allow for the outdoor unit to be placed up to 75m away from the indoor unit. This gives you the potential to place the outdoor unit at the bottom of the garden out of the way, or up on a less intrusive wall.

Disadvantages of a split heat pump

When choosing the best heat pump for your property, it is important to consider the disadvantages of each unit too. You can find the disadvantages of installing a split heat pump below.

Complicated installation

Due to the separate indoor and outdoor units, split heat pumps are more complicated to install. Many of them require the installation of refrigerant connections (which can only be done by a heating engineer with F gas qualifications). This makes the installation more time-consuming and is likely to increase the cost. As these units are also relatively new, you may find it harder to find a qualified heating engineer in your area as well.

Less indoor space

Unsurprisingly, installing a split air source heat pump will probably take up more room inside your property than a monobloc heat pump. Mainly due to their being an indoor unit as well as an outdoor unit. The most drastic loss of indoor space you could face with a split heat pump is installing an indoor unit and a separate hot water storage tank. This would not only fill the space your boiler previously inhabited, but take up further space with a hot water storage tank. This can be remedied by opting for an indoor unit with an integrated hot water storage tank, but it is not something that should be overlooked.

More expensive

Being more complicated in design than a monobloc heat pump, split air source heat pumps are generally a little more expensive to buy. Couple this with a potentially more costly installation and the price difference can start to add up. However, there is no guarantee a split heat pump will cost more than a monobloc, and you should always get comparison quotes to ensure you get the best installation price possible.

Picking the best air source heat pump

Unfortunately, when it comes to picking the best air source heat pump, there is no a definitive answer. All you can do is use the information we have provided and compare it against your circumstances. The best air source heat pump for you will be whichever best suits your home and your needs.

Whenever making a decision as big as this, we highly recommend getting advice from a local heating expert. Luckily, this is something we can help with. We'll provide you with free no-obligation quotes from qualified heating engineers in your area. You can then pick the best quote and get the best heating solution for your home.

Guangdong JNOD New Energy Technology Co., LTD. focusing on heat pump& electric boiler R&D, manufacturing and providing comprehensive energy-saving solutions.

JNOD has a complete heat pump industry chain, and its products involves Swimming Pool Heat Pump, House Heating & Cooling Heat Pump, Domestic Hot Water Heat Pump, Heat Pump Dehumidifier, Commercial & Industrial High Temperature Water Heating Solution, Industrial and Agricultural Heat Pump Dryer,etc.The ultra-low temperature EVI heat pump has been widely used, too.

JNOD insisted on developing with technology innovation, it possessed of several national famous technicians and had invented multiply product patents. The company has been strictly implement the ISO international quality management system, and the products are of reliable guaranteed quality.

We are committed to providing customers the best hot water & heating solutions with our heat pump products, focusing on the latest technologies, strive for outstanding quality in our products and customer service.

In recent years, the potential energy of the sports industry under the national fitness, and favorable policies such as swimming into the high school entrance examination sports, the constant temperature swimming pool was once in short supply, and the Swimming Pool Heat Pump was out of stock.

What is the first stage of the workflow of Swimming Pool Heat Pump?

What is the second stage of the workflow of Swimming Pool Heat Pump?

What should we pay attention to when using Swimming Pool Heat Pump?

What is the first stage of the workflow of Swimming Pool Heat Pump?

In the first step, the indoor hot and humid air in the swimming pool first exchanges heat with the outdoor fresh air through the heat exchanger to become warm and humid air, and then the warm and humid air flows through the evaporator, the temperature drops, and the water vapor condenses into cold water droplets and is separated from the air. Make the air dry and realize the function of air dehumidification; at the same time, the heat energy (latent heat and sensible heat) is released in the process of air cooling, water vapor condensation and cooling are absorbed by the refrigerant.

What is the second stage of the workflow of Swimming Pool Heat Pump?

In the second step, the heat energy absorbed by the refrigerant first (latent heat) heats the pool water through the heat exchanger to realize the pool water heating function: the residual heat (sensible heat) passes through the air condenser to heat the cooled indoor air to realize the air insulation function. In the severely cold winter, when the energy available for the heat pump to extract in the air is too small, and the heat energy recovered by the heat pump is not enough to meet the requirements of the indoor air temperature, the auxiliary air heater is added to supplement the heat energy required for the indoor hot air. The Swimming Pool Heat Pump only needs to provide its own operating power, that is, it runs continuously according to the above working procedures, and achieves a harmonious balance of the three functions of pool water heating, air conditioning and dehumidification with low energy consumption.

What should we pay attention to when using Swimming Pool Heat Pump?

1. When maintaining and cleaning the Swimming Pool Heat Pump, make sure that the Swimming Pool Heat Pump is in a power-off state. In addition, when the heat pump is not in use: the power supply should also be cut off.

2. Do not use gasoline, Tianna water, volatile oil, solvents and other chemicals, or liquid pesticides on the Swimming Pool Heat Pump, otherwise it may cause parts to crack and deform.

3. The area around the Swimming Pool Heat Pump should be kept dry and well ventilated.

4. Regularly clean the air-side heat exchanger to maintain a good heat exchange effect. If the shutdown time is long, the water in the pipeline of the unit should be drained, the power supply should be cut off, and the protective cover should be put on. When it is necessary to use it again, the system must be thoroughly checked before turning it on.

After reading, do you have a deeper understanding of Swimming Pool Heat Pump? For further information, please contact Guangdong JNOD New Energy Technology Co., LTD. They will be very pleased to help you.

2022-10-28 · R32 Inverter Monoblock system heat pump water heater Air to Water Heat Pump for Central House Heating Cooling and Domestic Hot Water Features: 1.Hot water up to 65ºC,suitable for underfloor/radiator heating/fan coil 2.can work stable at ambient temperature -25C to 45C 3.E-Heater,diverter valve and water pump can be inclueded 4.

Manufacturer of Swimming Pool Heat Pump offered by Energeniuss Solar, Zirakpur, Punjab. X. Energeniuss Solar. Zirakpur, Mohali, Punjab

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All In One Monoblock Eco Heating And Cooling Heat Pump offered by China manufacturer Guangdong JNOD New Energy Technology Co., LTD.. Buy All In One Monoblock Eco Heating And Cooling Heat Pump directly with low price and high quality.

2022-11-24 · This will help to maximize the amount of heating the heat pump provides to your home, lowering your energy use and utility bills. A set-point of 2°C to 3°C below the heat pump …