Swimming Pool Heat Pump is mainly used in constant temperature swimming pools, hot springs, saunas, foot baths, bathhouses, private villas and other constant temperature heating pools. It operates fully automatically, and its modular design is suitable for applications in various functions.

What is the advance in the Swimming Pool Heat Pump?

Why choose Swimming Pool Heat Pump?

How should the heating capacity of the Swimming Pool Heat Pump be obtained?

What are the advantages of Swimming Pool Heat Pump?

Swimming Pool Heat Pump has the characteristics of multi-function, energy saving and consumption reduction. The Swimming Pool Heat Pump in the swimming pool can not only recover the heat lost from the evaporation of the pool water through the constant temperature dehumidification heat pump during the dehumidification and air conditioning operation, but also reuse this part of the free heat to heat the pool water and air to make up for the pool water and air. The heat loss of the indoor swimming pool can be achieved to achieve the purpose of energy saving and cost reduction in the indoor swimming pool. There is also optional plasma sterilization and purification device to purify the air in an all-round way to create a fresh, clean and healthy indoor air environment.

Why choose Swimming Pool Heat Pump?

Swimming Pool Heat Pump only requires the user to set parameters such as space target temperature, pool target water temperature, space target humidity, and space carbon dioxide target concentration, and then select the automatic mode. With the priority level set by the program, the automatic operation meet all the requirements required by the user. Swimming Pool Heat Pump has stable operation, safety and environmental protection, and the average cost saving is 40%~60%, and the energy saving effect is obvious. Swimming Pool Heat Pump is suitable for large swimming pools, such as gymnasiums, athlete training halls, water entertainment and leisure places, etc. The three-in-one heat pump cabinet type is suitable for new and renovated indoor swimming pool projects such as private swimming pools, senior club swimming pools, hotels, etc.

How should the heating capacity of the Swimming Pool Heat Pump be obtained?

1. The basic situation of the swimming pool (area, water depth, indoor or outdoor, and the following will take indoor as an example)

2. The temperature of the place (initial water temperature, wind speed on the water surface of the pool, local atmospheric pressure, etc.)

3. Set the target temperature for heating (26℃~28℃)

4. The heat loss caused during the heat transfer process includes: the heat lost by evaporation on the surface of the pool water, the heat lost by conduction from the pool wall and the bottom of the pool, and the heat lost by pipes and equipment.

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

1. Eco Friendly

Compared to the on/off heat pump, inverter heat pump is much friendlier to the environment owing to their sudden fluctuation detection capabilities and automatic adjustments made to the compressor speed. This highly sophisticated yet innovative mechanism helps save energy, providing benefits to the environment.

2. Energy Efficient and save money

The inverter technology is considered a perfect solution when it comes to energy-efficiency and economical operation. In an inverter model from a heat pump inverter manufacturer, the cooling and heating are automated in an energy-efficient and seamless manner whereas earlier technologies used to consume a lot of electricity irrespective of the required usage.This will be good to cut-off your electricity bill.

3. Soundless operation

The compressor motor used by DC inverter heat pump manufacturer does not turn on and off all the time but keeps working at low power. This kind of machine makes the operation more quite.
Unlike non-inverters, they don't automatically turn on and off every time they reach a certain temperature; instead, they just cruise along maintaining and regulating the temperature constantly.

4. Long Life

The technology and hardware employed in DC inverter model by DC inverter heat pump supplier not only makes the cooling and heating effect more efficient, but also makes the unit last longer. Contrary to the operation of a non-inverter unit, the inverter uses less power and as a result, they work less, meaning that they are less prone to wear and tear.

5. Faster Cooling/Heating

The DC inverter heat pump is able to cool and heat your room faster than its non-inverter counterpart. This is due to the fact that an inverter heat pump unit operates on a variable speed compressor rather than at a fixed speed one. This process ensures rapid air conditioning effects via faster variable speed allowing the compressor to run at full power only when required while constantly regulating the temperature as per end user's desire.

6. Smart Capabilities

A smart DC Inverter heat pump will provide you complete control over energy consumption and usage through your PC and portable smart devices. Moreover, it will give you complete insights about all technical metrics such as watts, voltages, current and units consumed. A smart heat pump also lets the user schedule the heat pump to automatically turn itself on or off. Operations of a heat pump are more flexible and centralized when it is smart.

Please feel free to contact our JNOD sales team when you get more information.

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.

With the development of the times, heat pump technology is a new energy-saving technology that has attracted much attention all over the world. The pump we all know is a machine that transports liquid or pressurizes liquid. For example, the water pump mainly raises the water level or increases the water pressure, while the oil pump is used a device that transports various oils and transports these fluids to a higher position or pressure. Then today I will introduce you to Heat Pump Hot Water Heaters.

What is the selling point of Heat Pump Hot Water Heater?

What are the similarities between Heat Pump Hot Water Heater and Air Source Water Heater?

What is the difference between Heat Pump Hot Water Heater and Air Source Water Heater?

What is the selling point of Heat Pump Hot Water Heater?

The selling point of the Heat Pump Hot Water Heater is air energy. For household items, one of the most basic needs of people is convenience. Therefore, convenience has become the second highlight of air energy water heaters. Because the amount of air is not affected by indoor and outdoor, sunny and cloudy days, compared with solar water heaters, Heat Pump Hot Water Heater is very convenient, whether it is installed indoors or outdoors, let alone cloudy and sunny days, the temperature is above zero degrees Celsius, can be used. In addition, after a tank of water is used up, the air source water heater only needs no more than an hour to make another tank of hot water, which can be used by the family around the clock.

What are the similarities between Heat Pump Hot Water Heater and Air Source Water Heater?

1. Working principle. Both Heat Pump Hot Water Heaters and air energy water heaters operate on a small amount of electric drive equipment, absorb the free heat in the air, and then use the free air heat for heating.

Second, the advantages. Because the working principle is the same, the advantages of Heat Pump Hot Water Heaters and air energy water heaters are basically the same, and both have many advantages such as safety, energy saving, environmental protection, stability and comfort.

What is the difference between Heat Pump Hot Water Heater and Air Source Water Heater?

The main difference is that the function is different. The main function of the air energy water heater is to provide domestic hot water, while the Heat Pump Hot Water Heater can not only provide domestic hot water, but also provide heating and cooling services. It can be said that Heat Pump Hot Water Heaters include air energy water heaters, and air energy water heaters are just one of many products of Heat Pump Hot Water Heaters. If consumers want to buy air energy products, it is best to find out their needs before purchasing. If you only need hot water, buy an air source water heater. If you want a better consumer experience, Heat Pump Hot Water Heater is a good choice.

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.

Does heat pump consume electricity a lot ?

The answer to this question is of great concern to consumers and JNOD's answer is that air source heat pumps are a very energy efficient new energy heating device, compared to other electric heating devices on the market.

Heat pumps require some electricity to operate, but the amount is relatively small. 

The air source heat pump type works by using a small amount of electricity to drive the compressor to run and put the whole heat pump system into operation.

 

Heat is continuously absorbed from the air through the evaporator. 

Finally the heat absorbed and the heat generated by the electricity consumed is transferred to the water through the condenser.

We usually measure the efficiency of a heat pump in terms of COP. 

This unit is determined by measuring the energy input (in this case, electricity) and the energy output (heat). 

A heat pump with a CoP of 3 can produce 3 kW of heat from every 1 kW of electricity. 

Modern heat pump systems can transfer three to four times more heat energy in the form of heat than they consume in electrical energy to do this job. 

Other electric heating products such as the boiler, which has a COP = 1, mean that as much electricity as you want to produce heat is consumed. 

So choose a product with a COP greater than 1 (JNOD's heat pump) and you'll save on your energy bills!

Furthermore, JNOD's heating and cooling heat pump has Inverter EVI technology, which will allow the heat pump to adjust its operating power according to the ambient temperature, which will be even better.

There are many different factors will influence on your heat pump's electricity consumption, for example lifestyle, size of heat pump, heating space size,etc. 

Don't hesitate to contact JNOD for further advice and discussion on heat pump.

With the widely known advantages of air energy heat pump products such as cleanliness, environmental protection, energy saving, stability and comfort, heating with Heating and Cooling Heat Pump products has become a trend. More and more northern == home users and schools, hotels, hospitals When transforming the original heating system in other places, choose to use Heating and Cooling Heat Pump.

Compared with ordinary central air conditioning refrigeration and gas wall-hung boiler heating, what are the advantages of Heating and Cooling Heat Pump?

What are the advantages of using the Heating and Cooling Heat Pump?

What is the working principle of Heating and Cooling Heat Pump?

Compared with ordinary central air conditioning refrigeration and gas wall-hung boiler heating, what are the advantages of Heating and Cooling Heat Pump?

The common heating and cooling equipment on the market is mainly fluorine system heating and cooling air conditioning or the combination of gas wall-hung boiler heating and central air conditioning refrigeration.

The main advantage of Heating and Cooling Heat Pump compared to ordinary heating and cooling air conditioners is high comfort. The fluorine system heating and cooling air conditioner directly controls the indoor temperature through the flow of the refrigerant, and the refrigerant directly exchanges heat with the air. This heat exchange method has two disadvantages: First, the temperature of the air outlet of the air conditioner is very low or very high (7°C-12°C during cooling, 40°C-50°C during heating), the body feels very bad, and it is bitingly cold in summer. The winter is hot and dry; second, although the fluorine system air conditioner has a relatively fast cooling and heating speed, it will also cause a large amount of moisture in the air to be taken away due to the rapid heating and cooling speed, resulting in excessive indoor dehumidification and drying.

What are the advantages of using the Heating and Cooling Heat Pump?

1) The unit of Heating and Cooling Heat Pump has high energy efficiency ratio, energy saving and electricity saving.

2) The water temperature of the Heating and Cooling Heat Pump is generally constant at 12-22°C, which is 7°C for the water supply in summer, 12°C for the return water, 45°C for the water supply in winter, and 40°C for the return water, and the temperature difference between them is small. , so the unit has less work and more energy.

What is the working principle of Heating and Cooling Heat Pump?

During the operation of Heating and Cooling Heat Pump, the evaporator absorbs heat from the ambient heat energy in the air to evaporate the heat transfer working medium. After the working medium vapor is compressed by the compressor, the pressure and temperature rise. When the high-temperature vapor passes through the special annular pipe bonded on the outer surface of the water storage tank, the condenser condenses into liquid and transfers the heat to the water in the water storage tank of air source heat pump.

Guangdong JNOD New Energy Technology Co., LTD. has focused on the development and production of Heating and Cooling Heat Pumps for several years. And it commits to providing perfect service for every customer from all over the world.

Heat pumps can both heat and cool because they are made with a component called a reversing valve. This valve allows the heat pump to change the flow of refrigerant in the system, so it can operate in either cooling or heating mode. During the winter, in heating mode, the heat pump absorbs heat from the surrounding air, concentrates it in the heat exchanger and blows the air into your home. In the summer months, the heat pump removes the heat and humidity from your indoor air and transfers it to the outside.

For the heating & cooling heat pump,we have both R32 and R410A inverter model,.The heating capacity can be made from 10KW to 26KW, All-in-one & Monoblock type are available.

Benefits of JNOD Heat Pumps:

Adopting Mitsubishi inverter dedicated compressor.

Which designed for the low temperature operation specially, -25℃ running stably.

Super High Efficiency A+++

Air-to-water heat pump is specially developed through cutting-edge energy-saving technology to reach the highest A+++ energy rating to meet the stringent requirements for energy efficiency.,contributing to environmental protection while significantly reducing energy bills for customers.

DC Inverter EVI Technology

DC Inverter EVI Technology can effectively reduce power consumption and improve the heating capacity of heat pump units to ensureperatures as low as -25℃，which helps to offer the users optimum house heating and hot water supply all year round.

If you want to know more information, please feel free to contact us.

Swimming Pool Heat Pump is used to maintain the temperature of swimming pool water. Swimming Pool Heat Pump, because the indoor swimming pool generally maintains the water temperature at 26℃~28℃ and the air temperature at 28℃~30℃ (the air temperature is 1℃~2℃ higher than the water temperature).

What is the reason for the continued popularity of the Swimming Pool Heat Pump?

Why is Swimming Pool Heat Pump in demand?

What metrics should be considered for Swimming Pool Heat Pump?

What is the reason for the continued popularity of the Swimming Pool Heat Pump?

Not only swimming pools, but also from hotels to fitness clubs, heated swimming pools are becoming more and more indispensable, and the power consumption of constant temperature heating equipment has become one of the power consumption concerns of swimming pool owners, and its operating cost should not be underestimated.

Faced with the phenomenon that the market is in short supply, for many swimming pool owners who are eager to generate income, how to improve the energy efficiency utilization rate of the swimming pool constant temperature heat pump, ensure the efficient operation of the swimming pool in the low temperature climate, extend the popularity to the four seasons, and realize the full swimming pool. Annual business has become a key upgrade direction.

Why is Swimming Pool Heat Pump in demand?

Since the water temperature of indoor swimming pools is generally kept at 26°C~28°C, and the air temperature is kept at 28°C~30°C (the air temperature is 1°C~2°C higher than the water temperature), for lighting needs, the walls are mostly glass walls or glass structures. Because the pool water contains a lot of chlorine, with the continuous evaporation of the water in the pool, the air humidity is high, and the humid air causes a lot of condensation on the walls or glass, which is bound to cause strong corrosion to the interior decoration of the building. In addition, because humid air contains a large number of viruses, bacteria and other elements that reduce air quality, it can make it difficult for people to breathe, so indoor swimming pool temperature and humidity control are getting more and more attention. Swimming Pool Heat Pump has also attracted the attention of consumers.

What metrics should be considered for Swimming Pool Heat Pump?

Swimming Pool Heat Pump considers indoor air quality, and the constant temperature heat removal pump unit is equipped with fresh air treatment function and exhaust air function.

Swimming Pool Heat Pump considers the operating cost of the constant temperature heat removal pump unit. In the spring and autumn, a large amount of outdoor low-humidity fresh air can be used to adjust the humidity of the indoor air to reduce the operating cost.

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

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.

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