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.

Mist based humidification systems are employed in numerous environments. However, such systems are typically small portable units whilst it would be beneficial to employ ultrasonic based mist humidifiers in larger environments. However, these environments introduce additional requirements such as reducing the emission/distribution of condensed water as droplets from the humidifier, allowing independent placement of the mist generator from the mist distribution element(s), and the requirement to “throw” the mist a reasonable distance into the environment rather than relying upon the circulation within the environment to achieve distribution. Embodiments of the invention address these issues whilst also supporting modular humidification systems operating at multiple capacities.

The present disclosure discloses an evaporative air cooler including a housing, an atomization part, and a cooling part. An accommodating cavity is arranged in the housing; a water storage tank is arranged at a bottom of the housing; the accommodating cavity is provided with an air inlet and an air outlet; the accommodating cavity communicating with the water storage tank; the atomization part includes an atomizer, and a water tank fixed to the housing; a first water storage cavity is arranged in the water tank; the atomizer is fixed to the water tank and placed in the accommodating cavity; the cooling part includes a wet curtain filter net and a fan which are fixed to the housing; the fan is arranged between the air inlet and the air outlet; and the wet curtain filter net being accommodated in the accommodating cavity and the water storage tank.

Mist based humidification systems are employed in numerous environments. However, such systems are typically small portable units whilst it would be beneficial to employ ultrasonic based mist humidifiers in larger environments. However, these environments introduce additional requirements such as reducing the emission/distribution of condensed water as droplets from the humidifier, allowing independent placement of the mist generator from the mist distribution element(s), and the requirement to “throw” the mist a reasonable distance into the environment rather than relying upon the circulation within the environment to achieve distribution. Embodiments of the invention address these issues whilst also supporting modular humidification systems operating at multiple capacities.

The present disclosure discloses an evaporative air cooler including a housing, an atomization part, and a cooling part. An accommodating cavity is arranged in the housing; a water storage tank is arranged at a bottom of the housing; the accommodating cavity is provided with an air inlet and an air outlet; the accommodating cavity communicating with the water storage tank; the atomization part includes an atomizer, and a water tank fixed to the housing; a first water storage cavity is arranged in the water tank; the atomizer is fixed to the water tank and placed in the accommodating cavity; the cooling part includes a wet curtain filter net and a fan which are fixed to the housing; the fan is arranged between the air inlet and the air outlet; and the wet curtain filter net being accommodated in the accommodating cavity and the water storage tank.

An apparatus, system, and method are disclosed for dry fogging system. The system includes a first liquid tank including compressed air and a first liquid configured to disinfect and sterilize. The system further includes a second liquid tank including a second liquid. The system further includes a control panel configured to regulate dispensing of the first liquid and the second liquid. The first liquid tank, the second liquid tank, and the control panel are modular and configured to detach.

A misting system has a fan unit. A housing is provided having an opening formed there through. The fan unit is positioned within the opening. A plurality of apertures is formed in a bottom section of the housing. A plurality of misting nozzles is provided, wherein an individual misting nozzle is positioned proximate each aperture. A cap is positioned over the opening in a bottom section of the housing. A plurality of channels formed in the cap, wherein each of the plurality of channels is curved in a same direction of a rotational direction of the fan unit when the fan unit is forcing air downward and extend down and away from the cap forming a curved “V” shaped trough, wherein at least one curved “V” shaped trough is aligned with each of the plurality of misting nozzles.

Mist based humidification systems are employed in numerous environments. However, such systems are typically small portable units whilst it would be beneficial to employ ultrasonic based mist humidifiers in larger environments. However, these environments introduce additional requirements such as reducing the emission/distribution of condensed water as droplets from the humidifier, allowing independent placement of the mist generator from the mist distribution element(s), and the requirement to “throw” the mist a reasonable distance into the environment rather than relying upon the circulation within the environment to achieve distribution. Embodiments of the invention address these issues whilst also supporting modular humidification systems operating at multiple capacities.

Provided is a humidifier, including a machine base, a water tank, a water suction pump, and a water inlet pipe. The machine base is located on the water tank, which includes an atomization water reservoir, a water feed base, a control base, an atomization air channel and an atomizer disposed inside. The water feed base includes a water feed opening and a first outflow opening, and the first outflow opening is in communication with the water tank; a water inlet is disposed on the atomization water reservoir, and water in the water tank will flow into the atomization water reservoir through the water inlet pipe by the water suction pump; the atomizer is in communication with the atomization water reservoir through an atomization opening disposed at the atomization water reservoir, and water vapor flows into the atomization air channel and flows to outside along the atomization air channel.

The present disclosure relates to a field of humidifiers and in particular to an atomization humidifier that increases an amount of vapor through a specially designed atomizing air channel. The atomization humidifier includes a main body and an atomizing chamber arranged in the main body. The atomizing chamber includes an atomizing generator. An atomizing air channel is arranged on the atomizing generator. A flow guide plate is obliquely arranged on a top end of the atomizing air channel. A water inlet is arranged on an upper end of the atomizing air channel. An opening of the water inlet is upward. A lower end of the atomizing air channel is an air guide tube with hollow vacancies. The atomization humidifier realizes water vapor concentration by setting the atomizing air channel arranged on the atomizing generator, which improves an atomizing efficiency of the atomization humidifier by optimized structure, and is low in cost and good in atomizing effect.