Availability: | |
---|---|
Quantity: | |
AHE-25W/D
The main function:
●Air volume range: 250-1000m3/h, suitable for residences, offices, office buildings, hotels, medical inpatient departments, chess and card rooms, restaurants and other places.
●Unique structural design, the air duct noise reduction technology is applied to the equipment to ensure the perfect mute effect.
●In addition to the basic functions of fresh air replacement, air purification, energy recovery, etc., it is also equipped with different control systems, which can realize a variety of specific equipment functions.
●Panasonic DC brushless motor is adopted, with lower noise, super energy saving, comprehensive energy saving of more than 50%, and high cost performance. (DC frequency conversion D series)
●Using liquid crystal display control switch, it can realize timing on/off and air volume control according to needs. (DC frequency conversion D series)
●Indoor temperature display, optional temperature, carbon dioxide concentration display and control functions. Realize healthy control. (DC frequency conversion D series)
When buying an energy recovery ventilator, there are two kinds of motor: DC motor and AC motor, which one should I choose?
When choosing between a DC (direct current) or AC (alternating current) motor for an energy recovery ventilator (ERV), there are a few factors to consider. Here are some points to help you make an informed decision:
Energy Efficiency: DC motors are generally more energy-efficient compared to AC motors. They convert electrical energy into mechanical energy more efficiently, resulting in lower energy consumption and potentially reduced operating costs over time.
Variable Speed Control: DC motors offer better speed control capabilities compared to AC motors. They can be easily adjusted to operate at different speeds, allowing for more precise control of airflow in an ERV. This flexibility can help optimize ventilation based on specific requirements and conditions.
Noise Level: DC motors tend to operate more quietly than AC motors. If noise is a concern for you, choosing a DC motor for your ERV may provide a quieter operation, which can be beneficial, especially if the ERV is installed in a living space or near bedrooms.
Initial Cost: AC motors are generally less expensive compared to DC motors. If the upfront cost is a significant factor for you, an ERV with an AC motor might be a more cost-effective choice.
Longevity and Maintenance: DC motors often have a longer lifespan compared to AC motors due to their simpler design and fewer moving parts. They may require less maintenance and have a lower risk of mechanical failure over time.
Ultimately, the choice between a DC or AC motor for your ERV depends on your specific needs, priorities, and budget. If energy efficiency, precise control, and reduced noise are important to you, a DC motor may be the better option. However, if upfront cost is a primary consideration, an ERV with an AC motor could be a more affordable choice.
AHE-25W/D
The main function:
●Air volume range: 250-1000m3/h, suitable for residences, offices, office buildings, hotels, medical inpatient departments, chess and card rooms, restaurants and other places.
●Unique structural design, the air duct noise reduction technology is applied to the equipment to ensure the perfect mute effect.
●In addition to the basic functions of fresh air replacement, air purification, energy recovery, etc., it is also equipped with different control systems, which can realize a variety of specific equipment functions.
●Panasonic DC brushless motor is adopted, with lower noise, super energy saving, comprehensive energy saving of more than 50%, and high cost performance. (DC frequency conversion D series)
●Using liquid crystal display control switch, it can realize timing on/off and air volume control according to needs. (DC frequency conversion D series)
●Indoor temperature display, optional temperature, carbon dioxide concentration display and control functions. Realize healthy control. (DC frequency conversion D series)
When buying an energy recovery ventilator, there are two kinds of motor: DC motor and AC motor, which one should I choose?
When choosing between a DC (direct current) or AC (alternating current) motor for an energy recovery ventilator (ERV), there are a few factors to consider. Here are some points to help you make an informed decision:
Energy Efficiency: DC motors are generally more energy-efficient compared to AC motors. They convert electrical energy into mechanical energy more efficiently, resulting in lower energy consumption and potentially reduced operating costs over time.
Variable Speed Control: DC motors offer better speed control capabilities compared to AC motors. They can be easily adjusted to operate at different speeds, allowing for more precise control of airflow in an ERV. This flexibility can help optimize ventilation based on specific requirements and conditions.
Noise Level: DC motors tend to operate more quietly than AC motors. If noise is a concern for you, choosing a DC motor for your ERV may provide a quieter operation, which can be beneficial, especially if the ERV is installed in a living space or near bedrooms.
Initial Cost: AC motors are generally less expensive compared to DC motors. If the upfront cost is a significant factor for you, an ERV with an AC motor might be a more cost-effective choice.
Longevity and Maintenance: DC motors often have a longer lifespan compared to AC motors due to their simpler design and fewer moving parts. They may require less maintenance and have a lower risk of mechanical failure over time.
Ultimately, the choice between a DC or AC motor for your ERV depends on your specific needs, priorities, and budget. If energy efficiency, precise control, and reduced noise are important to you, a DC motor may be the better option. However, if upfront cost is a primary consideration, an ERV with an AC motor could be a more affordable choice.