How EV Air Cooler Achieve Dual Control Balance of Temperature and Humidity

In agricultural greenhouse scenarios, the coordinated management of temperature and humidity directly affects crop growth efficiency. Traditional environmental control equipment often faces the dilemma of "difficulty in balancing cooling and humidification", while EV air cooler provide innovative solutions to this problem with their unique working principle.

EV air cooler achieve cooling through the principle of water evaporation and heat absorption, while controlling humidity fluctuations through air volume regulation. Its core advantage lies in its "dynamic balance" capability: when the greenhouse temperature exceeds the set value, the equipment starts the evaporative cooling mode, and evenly delivers the cooling capacity to all corners through circulating airflow; When the humidity approaches the critical value, the intelligent control system automatically adjusts the spray frequency to avoid excessive humidification. This bidirectional regulation mechanism maintains the greenhouse environment within the suitable growth range for crops.

In practical applications, the energy-saving characteristics of EV air cooler are also worth paying attention to. Compared to traditional air conditioning systems, it reduces energy consumption by about 40% and does not require the installation of complex pipelines. Comparative data from a vegetable planting base shows that after using this equipment, the tomato fruit cracking rate decreased by 22%, and the growth cycle of leafy vegetables was shortened by 3-5 days.

From the perspective of technological iteration, the new generation of EV air cooler has integrated IoT modules that can upload real-time environmental data to cloud platforms, providing decision support for precision agriculture. This collaborative model of "hardware+data" is reshaping the industry standards for greenhouse environmental management.