Highest level of quality, short delivery times, and maximum customer satisfaction – Lavair values since 1996
Lavair was founded back in 1996 and quickly developed into a market leader as a manufacturer of air washers. Our focus was on new, innovative humidification systems from an early stage as well as conventional applications for air washers. As a result, Lavair has always been one of the leading international system suppliers of humidification solutions for ventilation systems.
As a company within the family-run Herrmann Group, which is active worldwide with more than 100 employees and partners, we stand out due to state-of-the-art stainless steel processing, an innovative development spirit and a corporate culture rich in tradition. From the very beginning, we have been supported by international sales partners who advise our customers on product selection, maintenance, refurbishment and repairs.
At our production sites in Aach on Lake Constance and in China, all systems are adapted to customer-specific requirements and dimensions.
Our systems are used for air volume flows from 200 m³/h to 2,000,000 m³/h for air conditioning and cleaning, for example in paint shops in the automotive and furniture industries, climate-controlled building ventilation, clean room technology, biofiltration and exhaust air cleaning in a wide variety of applications.
Customisations to the requirements of our customers in terms of geometry and process-related specifications such as air condition at the humidifier inlet, humidification efficiency, control accuracy, air speed, hygiene requirements, etc. are possible at any time thanks to the know-how of our employees and our flexible machine park.
Circulating water spray humidifiers are also commonly called air washers.
The air purification effect is described in this way due to the fact that, within the air, up to 1,000 times more water is atomized than is absorbed by the air through evaporation. Solid compounds like particulates, pollen, spores (allergens) and sulphur dioxides, nitrogen oxides, and ozone are absorbed by these water masses to a considerable degree. A design-dependent attempt is made to atomize only as much water in the air as is required for the desired increase in humidity.
As a result, almost complete droplet evaporation can be expected. All contaminants that the droplet has absorbed in contact with the air are discharged into the air again following complete evaporation. The wash-out effect of such systems can therefore be ignored. The situation is completely different with air humidification equipment operating on the basis of the continuous flow principle.
Circulating water spray humidifiers are also commonly called air washers. The air purification effect is described in this way due to the fact that, within the air, up to 1,000 times more water is atomized than is absorbed by the air through evaporation. Solid compounds like particulates, pollen, spores (allergens) and sulphur dioxides, nitrogen oxides, and ozone are absorbed by these water masses to a considerable degree. The situation is completely different with air humidification equipment operating on the basis of the continuous flow principle.
A design-dependent attempt is made to atomize only as much water in the air as is required for the desired increase in humidity. As a result, almost complete droplet evaporation can be expected. All contaminants that the droplet has absorbed in contact with the air are discharged into the air again following complete evaporation. The wash-out effect of such systems can therefore be ignored.
Circulating water spray humidifiers are also commonly called air washers.
The air purification effect is described in this way due to the fact that, within the air, up to 1,000 times more water is atomized than is absorbed by the air through evaporation. Solid compounds like particulates, pollen, spores (allergens) and sulphur dioxides, nitrogen oxides, and ozone are absorbed by these water masses to a considerable degree. A design-dependent attempt is made to atomize only as much water in the air as is required for the desired increase in humidity.
As a result, almost complete droplet evaporation can be expected. All contaminants that the droplet has absorbed in contact with the air are discharged into the air again following complete evaporation. The wash-out effect of such systems can therefore be ignored. The situation is completely different with air humidification equipment operating on the basis of the continuous flow principle.
on the basis of the continuous flow principle.
A design-dependent attempt is made to atomize only as much water in the air as is required for the desired increase in humidity. As a result, almost complete droplet evaporation can be expected. All contaminants that the droplet has absorbed in contact with the air are discharged into the air again following complete evaporation. The wash-out effect of such systems can therefore be ignored.