The need for energy savings and generating more added value in any industry makes it necessary to diversify the natural and mechanical air conditioning available. In this sense, investing in high-end technology entails its inherent long-term monetary gain.
The growing demand for industrial or home dehumidifiers is due to the rapid technological evolution, leading to a more efficient future in using air conditioning or mechanisms for production and storage. This is because in the industrial sector, the increase in expenses will be considerable with conventional energy. This will undoubtedly bring very strong competition at all levels, which of course include new system technologies that modernize homes, commercial complexes, and industrial warehouses.
In this sense, as competitive companies in any sector, the ideal is that they incentivize themselves in the acquisition and adoption of new technologies, capable of saving on electricity. For example, it is normal for industries to see the electrostatic desiccant as one of the best options to generate quality pure air. In itself, any efficient desiccant device is necessary right now in production and storage facilities, especially in buildings with a lot of workers, constantly exposed to indoor pollution, which is sometimes worse than outdoor pollution.
Within the innovative technologies and techniques around the industrial dehumidifier, the basic implementation is materialized by providing better membranes and filtration systems, so that ventilation is as pure as possible within a complex; it is the control of indoor environments.
As the supply and demand of these useful mechanisms become balanced, this kind of technology will be within reach of all entrepreneurs, who need to have the best microclimate for their workers or their manufacturing and product conservation processes.
While acquiring more efficient and capable technology, you will have to remember the basic drying methods for any space, for the reduction of water particles or suspended vapors. For example, there is the heating and ventilation process, which consists of increasing the temperature of the air in a space and then applying intense ventilation. The reality is that it is not as efficient as other processes, because the results will depend greatly on the external climatic conditions; as a useful fact, this method is highly recommended in winter. We must also consider the high costs of this method because drying takes time to be effective; it is possible that a lot of heating is required.
On the other hand, there is the absorption method, where hygroscopic materials systematically eliminate humidity from the air in a certain space. In this sense, industrial absorption dehumidifiers usually work very well in areas with a high preponderance of high atmospheric saturation. These mechanisms are commonly made with aluminum sheet rotors with profiling levels for a wide capacity to absorb large amounts of humidity in huge areas. Within these systems, there is a drying sector and a regeneration sector; In the first, the air will be dried through the rotor, while in the second, the hot air will flow and then be redirected to the outside.
A notable benefit of this type of mechanism is the ease of maintenance, with washable rotors and even self-cleaning qualities in the same system. In this way, the appearance of bacteria in its components will be almost non-existent. It is not for nothing that they are very ductile in the food and pharmaceutical industry, especially for their ability to dehumidify in areas whose temperatures are below zero or even without refrigeration.
The condensation process eradicates humidity with an industrial condensation dehumidifier. It cools the humidity in the air and causes the humidity to escape. These mechanisms usually have fans/extractors, heat exchangers, compressors, and expansion components. The air extractor helps to expel the air through the heat exchangers. Then, the steam will condense, accumulating on the surfaces of the desiccant tank, to be eliminated in the sewer. It is a cycle where dry air returns to provide its main purpose.
