FAQ
Q: What are the advantages of AirValley?
------------------------------------------------- A: The advantages of AirValley are mainly divided into three points: 1. The industry's top accessories suppliers, and professional production workers and processes enable us to provide high-quality products for a long time. 2. Timely supply, we are composed of a young team, the age of employees is between 20 and 40 years old, we are full of passion. More than that, years of working experience in the industry have made us friends with our suppliers, and we can get the support of suppliers as quickly as possible. 3. As mentioned above, with the cooperation of suppliers, our cost advantages are also reflected, so we can provide more reasonable prices.
Q: What has AirValley gained from the cooperation with Danfoss?
------------------------------------------------------------------------------ A: 1. Danfoss provides the highest quality products in the world, and AirValley will benefit from these high-quality products, especially the Danfoss blue compressor, which can be said to be the pinnacle of the industry.
2. Danfoss helps us test our heat pump products. As long as 2 and above Danfoss products are used in the heat pump, Danfoss can assist in testing the performance and stability of the heat pump, and Danfoss has one of the most advanced heat pump laboratories in China. AirValley and Danfoss are in the same city, which makes our cooperation more convenient.
3. We have also learned the many benefits of strict management and high quality requirements for ourselves and our customers. We also regard this as one of the corporate spirits that AirValley will always follow.
Q: What is the advantages of Air Source Heat Pump?
-------------------------------------------------------------- A: 1. High energy saving efficiency
Direct heating by electric energy is relatively inefficient, and one kilowatt-hour of electricity can only produce one share of heat energy, which is one of the reasons for the high electricity bill when electric heating is used in winter. The working principle of the air source heat pump is slightly different. The compressor is driven by low power to absorb the low-grade heat energy in the air and convert it into high-grade heat energy, which is then used for indoor heating. Consuming 1 degree of electricity can get more than 3 parts of heat energy. Therefore, the electric energy consumed by the air source heat pump to produce the same heat is very low, and it is a very efficient energy-saving heating equipment.
2. High environmental protection and safety
When the air source heat pump is working, it only consumes electric energy and does not rely on natural gas, coal, oil and other non-renewable resources. Therefore, there will be no open flames, no pollutant emissions, and no pollution to the environment. It is highly environmentally friendly. At the same time, the power system of the air source heat pump is concentrated in the outdoor unit, and the heat is transmitted to the room through water, so that water and electricity can be separated, and the room will not be exposed to the power supply, which has good safety. Compared with other heating equipment, it can avoid fire and explosion. , poisoning, electric shock and other risks. Even if the fan coil unit is used for heating in winter, it will not bring danger indoors. The indoor pipes are full of water. If there is leakage, it will only wet the ceiling, and there will be no leakage of refrigerant from the fluorine air conditioner, which will reduce the fluoride content in the room. If it is too high, it will affect your health.
3. Low cost of use
The air source heat pump uses 1 kilowatt-hour of electricity to generate 3 parts of heat energy. Compared with air conditioning and electric heating, it can save 2/3 of the cost of use, and can save 1/2 of the cost of gas wall-hung boiler heating. Compared with central heating, it can also About 30% cheaper. If the heating area is 100 square meters, using air conditioners and electric heaters, the cost of day and night operation is at least 3,000 yuan, and the use of gas wall-hung boilers for heating is also day and night operation, and the cost is about 1,500 yuan. 500 yuan is enough. Of course, the cost cannot be compared with coal-fired heating, but it is higher than coal-fired heating in terms of energy cleanliness, cleanliness, convenience, and sanitation.
4. High heating comfort
The air source heat pump mainly uses the water system to work, and the heating end can be carried out through fan coils, floor heating and radiators. In terms of comfort, floor heating is well-deserved first. The indoor coils are evenly laid, and the temperature is evenly dissipated. High transmission, heat the feet first and then the body, so that the temperature feeling of warming the feet and cooling the roof is the most comfortable heating solution at present.
Not only that, the air source heat pump is also very comfortable when cooling in summer. Chilled water is generated by the heat pump host and circulated to the indoor fan coil for heat exchange. The indoor temperature is very constant (the inertia of water), and the outlet air temperature of the water system air conditioner is only 12°C-15°C, compared with fluoride air conditioners At a low temperature of 7°C-10°C, the air outlet is softer, the air outlet temperature is higher, the temperature fluctuation is smaller and the impact on humidity is smaller.
5. Wide range of use
Air source heat pumps use low electric energy to absorb heat in the air, and can be used as long as there is electricity, water, and air (the temperature is above -25°C), and are not affected by light and energy, and are less affected by the environment . The application of the air source heat pump to the air injection enthalpy increase technology makes the ability to adapt to the ambient temperature stronger, and it can be heated at -35°C-48°C, which can meet the use in most regions of the world.
6. Good stability
All the refrigerants used by air conditioners are fluorides, while the refrigerants used by air source heat pumps include fluorides and water. Fluorides are used in the main unit and water is used in the indoor part. In contrast, water is more inert and can last longer. The heat absorbed by the air energy heat pump can be stored in the water for a longer period of time, making the indoor temperature more constant, and reducing the frequent operation of equipment, so that it can be more energy-saving while maintaining stability.
7. Strong intelligent ability
The air source heat pump host is controlled by a microcomputer. When debugging, set the required parameter configuration, and the host will automatically adjust the amount of water replenishment, heating, power-off protection, water tank insulation and Heating and other work do not require complex operation control panels, and the air source heat pump can be connected to the smart 485 interface, and the air source heat pump system is compatible with the intelligent equipment of the whole house to realize remote intelligent control.
8. Long service life
The service life of gas water heaters is about 8 years, and the service life of gas wall-hung boilers can reach 15 years, but the gas quality and water quality must be good, otherwise the service life of the equipment will be scrapped after a few years of use. However, the design life of the core components of the air source heat pump is more than 15 years, which can cope with the impact of power aging and scale problems. Of course, regular maintenance can also increase the service life of the equipment.
9. Simple installation conditions
Although the air source heat pump is relatively large in size, it has certain installation space requirements. However, the installation of air source heat pumps is not limited by geology, pipelines and energy supply. The normal operation of the main engine can be realized in places with air circulation, and there is no excessive demand for power equipment, which is equivalent to the power distribution of ordinary air conditioners. Don’t worry The troubles caused by insufficient power at home and capacity expansion can be used in large and small houses.
Q: What are the advantages of water source heat pumps?
-------------------------------------------------------------------- A: Water source heat pumps are low-grade thermal energy resources formed by using shallow surface water sources, such as solar energy, groundwater, rivers, and geothermal energy absorbed by lakes. Based on the heat pump principle, through a small amount of electrical energy input, the low-level thermal energy is converted into high-level thermal energy technology.
1. Water source heat pump is a renewable energy utilization technology.
2. High operating efficiency, low cost and energy saving.
The available water temperature of the water source heat pump unit in winter is 12-22, which is higher than the outdoor air temperature in winter, and the evaporation temperature and energy efficiency ratio of the heat pump cycle are improved. Compared with electric heating, a well-designed water source heat pump unit can reduce power consumption by more than 70%.
3. Stable and reliable operation
The temperature of water bodies is relatively stable all year round, especially groundwater, whose fluctuation range is much smaller than that of air, and is a good cold and heat source for heat pumps. Therefore, the operation of the heat pump unit is reliable and stable, and there is no problem such as defrosting of the air source heat pump in winter.
4. Significant environmental benefits
The water source heat pump unit has no pollution in operation and can be built in residents' homes without combustion, smoke exhaust, waste, no need to pile up fuel waste sites, and no need for long-distance heat transfer.
5. One machine with multiple functions, wide application range
The system can provide heating, cooling and domestic hot water. One machine with multiple functions, one system can replace two sets of boilers and air conditioners. Especially for buildings with both heating and cooling requirements, it has obvious advantages. It not only saves a lot of energy, but also reduces the initial investment of equipment.
6. Available water sources
In theory, water source heat pumps can utilize all water resources. In fact, in actual engineering, the cost of using different water resources is very different. Therefore, whether there are suitable water sources in different regions becomes the key to the application of water source heat pumps. The ability to find a suitable water source becomes the limiting condition for using water source heat pumps, and the water source requirements must meet certain temperature, water volume and cleanliness.
7. The geographical structure of the water layer
To use groundwater recharge, the geological structure must be considered to ensure that wells are drilled under economical and reasonable conditions, to find a suitable water source, and to realize recharge at the same time.
Water source heat pump technology is not only widely used in all kinds of civil buildings, public buildings, military buildings and other central air-conditioning systems that need cooling and heating to supply hot water for bathing, but also involves freezing, refrigeration and cooling process systems in the industrial field, becoming an energy-saving One of the important technologies for emission reduction.
Q: What is the difference between heat pump air conditioner and ordinary air conditioner?
----------------------------------------------------------------------------------------------------------- A: Air conditioner are one of the common electrical appliances in modern homes. With the continuous advancement of technology, there are more and more types of air conditioners. Heat pump air conditioner is one of them, so what is the difference between heat pump air conditioner and ordinary air conditioner? In this issue, follow the editor to find out.
1. Different working principles
The working principle of ordinary air conditioner is cooling or heating. When cooling, the heat in the air is absorbed by compressing the refrigerant. When heating, the electric heating tube generates heat to heat the air. The heat pump air conditioner uses the heat energy in the air to cool or heat, and exchanges the heat between indoor and outdoor through the circulation system, so as to realize the adjustment of indoor temperature.
2. Better energy saving effect
Because the heat pump air conditioner uses the heat in the air to cool or heat, its energy consumption is lower than that of ordinary air conditioners, and the energy saving effect is better. When heating in winter, it does not need to consume a large amount of electricity like ordinary air conditioners, but extracts heat energy from the air, so energy consumption can be minimized.
3. Lower operating costs
Since heat pump air conditioner are more energy efficient, their operating costs are relatively low. When heating, the energy efficiency ratio of heat pump air conditioner can be as high as 300%, which means that its energy consumption is about three times that of ordinary electric heaters. Moreover, the heat pump air conditioner can also switch between cooling and heating, so the appropriate mode can be selected according to different seasons and weather, thereby further reducing operating costs.
4. Environmental protection and energy saving
The heat pump air conditioner is an environmentally friendly and energy-saving product. Its refrigerant uses a very environmentally friendly refrigerant that does not pollute the environment. At the same time, because the heat pump air conditioner has a better energy-saving effect, its use also helps to save energy and reduce carbon emissions, which is of great significance to the cause of environmental protection.
Generally speaking, compared with ordinary air conditioner, heat pump air conditioner have better energy-saving effects, lower operating costs, and are also environmentally friendly and energy-saving. However, the price of heat pump air conditioners is relatively high, so you need to choose the right product according to your actual needs and economic conditions.
Q: How to Calculate the Heat Required in a Room?
----------------------------------------------------------- A: 1. Generally, for houses without wall insulation measures, calculate the heat required for the specific house area according to the heat of 100 watts per square meter of room area;
2. Generally, for houses with wall insulation measures, calculate the heat required for the specific house area according to the heat of 70 watts per square meter of room area;
3. For rooms that are usually on the back side, calculate the heat required for the specific house area according to the heat of 120 watts to 150 watts per square meter of the room area;
4. For houses with specific heat requirements, supply according to their detailed requirements.
Q: How to become a AirValley partner?
---------------------------------------- A: It's very simple, just place an order with us and you are our partner.

If you want to become our local agent, you need to reach a certain order volume and then sign an agency agreement with us. For agents, we have better terms of service. for example: 

1.The best product price; 

2.Priority production arrangements; 

3.Rich product training; 

4.First-hand new product consultation; 

5.Free brochure design; 

6.More timely email reply and so on.

Q: What is a DC inverter air source heat pump?
---------------------------------------- A: A DC Inverter air source heat pump refers to a heat pump unit that uses a DC frequency conversion control system to control the corresponding DC frequency conversion compressor, DC fan and water pump. Not only the energy saving effect is good, but also the use efficiency is very high.

Q: Why DC inverter heat pump?
---------------------------------------- A: 1. DC inverter heat pump is more energy-saving.
In fact, DC Inverter and fixed speed heat pumps are both energy-saving products, and the biggest difference between the two is that the working mode of DC Inverter air source heat pump is more efficient than the fixed speed heat pump. When the ambient temperature is minus 15 degrees, the working efficiency of the DC Inverter and fixed speed air source heat pumps is basically the same. And when the ambient temperature drops to minus 10 degrees, the DC Inverter air source heat pump can follow the difference in ambient temperature, automatically adjust the compressor and fan speed, and realize stepless variable speed adjustment, so that energy can be fully utilized. From this point of view, frequency conversion Air source heat pumps are more efficient.
2. The temperature is more stable.
After the water temperature reaches the set temperature, the DC inverter heat pump will not stop running like the fixed speed air source heat pump, but will run at a lower frequency to maintain the set temperature, especially when providing heating (cooling) for the family. It can control the amount of heating (cold) by changing the speed of the compressor. The fixed-frequency air source heat pump maintains the set temperature by repeatedly starting and stopping the compressor. The temperature difference fluctuates greatly, and the water temperature fluctuates, so the room temperature may be overcooled or overheated.