A automotive humidifying assembly includes a housing that can be gripped by a user during automotive travel and the housing has a vapor aperture extending therein. A reservoir is provided that contains a fluid and the reservoir is removably coupled to the housing. A pump is positioned within the housing and the reservoir is placed in fluid communication with the pump when the reservoir is positioned in the housing. An atomizer is positioned within the housing and the atomizer converts the fluid in the reservoir into a vapor when the pump is turned on. Thus, the vapor aperture releases the vapor for moistening the user's eyes. A funnel is coupled to the housing and the funnel is in fluid communication with the vapor aperture. The funnel can be positioned proximate one of the user's eyes for directing the vapor into the user's eye thereby facilitating the user's eye to be moistened.

An air-cooling device for a boat includes a plurality of misting modules and a pump. Each misting module comprises a housing that defines an interior space. The housing has a back that is coupled to a sidewall of a boat. A plurality of slots is positioned in the housing and is configured for air to enter the interior space. A plurality of orifices is positioned in a front of the housing. A plurality of fans is coupled to the housing and positioned in the interior space. Each fan is positioned in an associated orifice. A plurality of nozzles is coupled to the front of the housing. The pump is operationally coupled to the nozzles and a source of water. The pump is positioned to pump water through the nozzles to form a mist. The fans are configured to disperse the mist to cool an area proximate to the housing.

A device for conditioning room air and/or process air, having a nozzle system that has a plurality of nozzles arranged in one or more nozzle branches, for atomising liquid, and at least one pump by means of which the liquid being atomised is pressurised, wherein said nozzles are designed as swirl nozzles and/or the pump applies a pressure to the liquid being atomised of between 3 and 50 bar. The liquid, particularly water, can be atomised particularly finely and a good degree of evaporation can be achieved, as a result of which the amount of water loss is also reduced. The device has a low susceptibility to failure, a long pump service life and low maintenance requirements.

An apparatus, system, and method for providing a non-linear fluid stream into an environment for cooling purposes are disclosed. Such an apparatus includes a body portion and a nozzle, the nozzle being adapted to direct water into the environment. Such an apparatus may include a body portion having a flow channel defined therein for gas flow therethrough; and, a nozzle operatively disposed within the flow channel; said nozzle adapted to direct a liquid therefrom; wherein the channel and the nozzle are operatively disposed relative to each other so that a gas flowing through the channel and the liquid are combined into a fluid stream directed from the apparatus into the surrounding environment.

Nebulization systems to generate a mist of microdroplets of a liquid for the purpose of refreshing the atmosphere. Such nebulization systems are sized for mounting on a sales display for humidifying and refreshing fresh products displayed for sale.

A portable misting system includes a carrying case, a fluid pump arranged within the carrying case, and a power source arranged within the carrying case to provide electrical power to the fluid pump. A working fluid source provides a working fluid to the fluid pump via a supply line, a distribution line receives a pressurized working fluid from the fluid pump, and one or more spray nozzles are coupled to the distribution line to discharge the pressurized working fluid as a mist.

An inductive-humidification and evaporative-cooling ventilation system comprising: means for generating a flow of air; a channel for conveying said flow of air, said channel comprising a plurality of inductive holes for transferring said flow of air into the environment, said channel further comprising at least one outflow mouth for expelling said flow of air, which has a three-dimensional structure open both at the back and at the front, and a fluid-thread straightener set at the rear end of said at least one outflow mouth, which recalls a flow of air from the environment surrounding said channel; and at least one humidification device for introducing nebulised water into the environment; wherein said at least one humidification device is set within said at least one diffusion mouth, and said plurality of holes are arranged in a number of rows aligned longitudinally along the ducts.

A system for cooling motor vehicles, having a covering subsystem having a shelter and a plurality of side walls being configured to accommodate a motor vehicle is provided. The system also has a nebulization subsystem fastened to an internal side wall of the shelter and has a plurality of nozzles configured to spray inside the covering subsystem microscopic droplets of water, the microscopic droplets of water being suitable to evaporate and realize an adiabatic transformation arranged to lower the temperature inside the covering subsystem. The invention also relates a method to realize the system for cooling motor vehicles.

A portable misting system includes a housing, an air pump carried by the housing to provide a flow of air, a water reservoir carried by the housing to hold a supply of water, and a water pump carried by the water reservoir to provide a flow of water droplets. An air/water nozzle assembly is carried by the housing and includes a nozzle body and a misting nozzle coupled to an output of the nozzle body. The nozzle body has an air input coupled to the air pump to receive the flow of air, and a water input coupled to the water pump to receive the flow of water droplets.

The misting system has, in one embodiment, two seats with misting heads above each seat. A platform supports the seats, a tank, a pump and a power source. A supply line couples the tank-supplied pump and the misters. Removable canopy is mounted above seats by vertical and curvaceous struts and the misters are mounted on the struts. A user actuated UA control on the seat(s) activates pump ON to release mist. Wheels make the module mobile. Battery, solar power, and chiller are options. A countdown timer turns OFF the pump or controllable, inline valves after initial activation of the UA control. A level sensor in the tank alerts the user via a user display. A pressurized system can be used. Multiple modules coupled together are controlled by a master module with master controls.