What are the advantages of this Floor-Standing Evaporative Air Cooler With Remote Control in terms of energy saving and environmental protection?

Unlike traditional air conditioners, Floor-Standing Evaporative Air Cooler With Remote Controls only rely on water evaporation to absorb heat and fan air supply to cool down, which greatly reduces power consumption. Usually, the power consumption is only 1/5~1/10 of that of traditional air conditioners. The main power-consuming components are small water pumps and fans, and the power is usually between 60W~200W, which is much lower than the 1000W~3000W of air conditioners. It can be turned on and used immediately, and can quickly cool down without long-term operation, reducing standby power consumption.

Traditional air conditioners rely on chemical refrigerants, which may leak and damage the ozone layer or aggravate the greenhouse effect, while evaporative air conditioners only use water as a cooling medium, with zero fluorine emissions, which meets environmental protection requirements. The heat discharge of the air conditioner outdoor unit to the outdoors will aggravate the urban heat island effect, while the evaporative air conditioner has no outdoor unit and only cools down through water evaporation, without additional heat load on the environment.

Unlike the closed cycle of traditional air conditioners, evaporative air coolers inhale outdoor air during operation, filter and cool it down through wet curtains, and then send it indoors to avoid the increase of carbon dioxide concentration and keep the air fresh. In dry areas, evaporative air coolers can increase air humidity (traditional air conditioners dehumidify), reduce respiratory discomfort caused by dryness, and reduce static electricity.

The air conditioner has a built-in water tank. After the water evaporates through the wet curtain, the unevaporated water can flow back to the water tank for reuse, reducing water waste. The water consumption per hour is about 1 to 5 liters (depending on the ambient humidity), which is more economical than industrial cooling towers or air conditioning condensation drainage.

There is no complex compressor and condensation system, the failure rate is low, and the service life can reach 5 to 10 years. Plastic shells, metal brackets, motors and other materials are easy to sort and recycle, reducing electronic waste pollution. It has low power and can be adapted to solar cells or small inverters. It is suitable for off-grid areas or used with photovoltaic systems to further reduce carbon footprint.