The fog removal apparatus comprises a plurality of fog barriers for removing moisture in the fog by absorbing moisture in the fog and by allowing air to pass therethrough when the fog passes through the fog barrier on the wind, and a fog barrier support for supporting the fog barrier. The fog barrier comprises a perforated plate arranged on an outer surface of the frame to support the fog barrier; a coated mesh having a porous waterproofing function; a super absorbent sheet for absorbing a large amount of moisture from the fog passing through the fog barrier; a heating means arranged adjacent to the super absorbent sheet to heat and dry the coated mesh and the super absorbent sheet.

The fog removal apparatus comprises a plurality of fog barriers for removing moisture in the fog by absorbing moisture in the fog and by allowing air to pass therethrough when the fog passes through the fog barrier on the wind, and a fog barrier support for supporting the fog barrier. The fog barrier comprises a perforated plate arranged on an outer surface of the frame to support the fog barrier; a coated mesh having a porous waterproofing function; a super absorbent sheet for absorbing a large amount of moisture from the fog passing through the fog barrier; a heating means arranged adjacent to the super absorbent sheet to heat and dry the coated mesh and the super absorbent sheet.

The fog removal apparatus comprises a plurality of fog barriers for removing moisture in the fog by absorbing moisture in the fog and by allowing air to pass therethrough when the fog passes through the fog barrier on the wind, and a fog barrier support for supporting the fog barrier. The fog barrier comprises a perforated plate arranged on outer surface of the frame to support the fog barrier; a coated mesh having a porous waterproofing function; a super absorbent sheet for absorbing a large amount of moisture from the fog passing through the fog barrier; a heating means arranged adjacent to the super absorbent sheet to heat and dry the coated mesh and the super absorbent sheet. The multipurpose fog removal system comprises a fog removal apparatus comprising a plurality of fog barriers, an overflow prevention apparatus arranged to provide an upward flow of air to prevent overflow phenomenon that the fog rides over the fog barrier above, and an wind prevention apparatus configured to tilt and rotate in one direction the plurality of fog barriers to a predetermined angle. Heating means for heating and drying the coated mesh and the super absorbent sheet, the overflow prevention apparatus, and the wind prevention apparatus are controlled manually or automatically, or remotely and wireless.

The fog removal apparatus comprises a plurality of fog barriers for removing moisture in the fog by absorbing moisture in the fog and by allowing air to pass therethrough when the fog passes through the fog barrier on the wind, and a fog barrier support for supporting the fog barrier. The fog barrier comprises a perforated plate arranged on outer surface of the frame to support the fog barrier; a coated mesh having a porous waterproofing function; a super absorbent sheet for absorbing a large amount of moisture from the fog passing through the fog barrier; a heating means arranged adjacent to the super absorbent sheet to heat and dry the coated mesh and the super absorbent sheet. The multipurpose fog removal system comprises a fog removal apparatus comprising a plurality of fog barriers, an overflow prevention apparatus arranged to provide an upward flow of air to prevent overflow phenomenon that the fog rides over the fog barrier above, and an wind prevention apparatus configured to tilt and rotate in one direction the plurality of fog barriers to a predetermined angle. Heating means for heating and drying the coated mesh and the super absorbent sheet, the overflow prevention apparatus, and the wind prevention apparatus are controlled manually or automatically, or remotely and wireless.

The present disclosure relates to an air barrier system II for blocking inflow of fog. According to the present disclosure, provided is an air barrier system which does not affect wind load while effectively preventing fog from flowing toward a road.

The present disclosure relates to an air barrier system II for blocking inflow of fog. According to the present disclosure, provided is an air barrier system which does not affect wind load while effectively preventing fog from flowing toward a road.

The present disclosure relates to an air barrier system II for blocking inflow of fog. According to the present disclosure, provided is an air barrier system which does not affect wind load while effectively preventing fog from flowing toward a road.

The present disclosure relates to an air barrier system II for blocking inflow of fog. According to the present disclosure, provided is an air barrier system which does not affect wind load while effectively preventing fog from flowing toward a road.

Disclosed herein is a device for removing fog using a hybrid-type anion generating device, the device including: a support body (100) configured to protect individual devices from external pressure; a solar panel (200) configured to charge electricity into a rechargeable battery; a fog sensor module (300) configured to analyze whether the fog in question is thick fog or thin fog; a hybrid-type anion generating device (400) configured to generate anions by means of a hybrid method; the smart control unit (500) configured to control the overall operation of the individual devices, and to perform control so that input fog data and system normality or abnormality data are transmitted to a firefighting control center; and a charge control module (600) configured to perform control so that any one of electricity generated by the solar panel and electricity supplied from a commercial power is selected and charged into the rechargeable battery.

Disclosed herein is a device for removing fog using a hybrid-type anion generating device, the device including: a support body (100) configured to protect individual devices from external pressure; a solar panel (200) configured to charge electricity into a rechargeable battery; a fog sensor module (300) configured to analyze whether the fog in question is thick fog or thin fog; a hybrid-type anion generating device (400) configured to generate anions by means of a hybrid method; the smart control unit (500) configured to control the overall operation of the individual devices, and to perform control so that input fog data and system normality or abnormality data are transmitted to a firefighting control center; and a charge control module (600) configured to perform control so that any one of electricity generated by the solar panel and electricity supplied from a commercial power is selected and charged into the rechargeable battery.