Disclosed are a pollutant capturer and mobilizer and method of mobilizing a polluted gaseous substance from one location towards another location and capturing one or multiple types of polluting substances, such as CO.sub.2, from an atmospheric body of polluted gaseous substance or from exhaust of vehicles, chimneys, or stacks and thereby combat the negative health, environmental, and economic impacts of the of the polluting substances on communities. Wet or dry embodiments of the pollutant capturer and mobilizer utilize wet or dry pollutant capturing components, respectively, to capture one or multiple types of polluting substances from a body of polluted gaseous substance. Flow establishing devices can be used to set the body of polluted gaseous substance in motion through the pollutant capturing component. The pollutant capturer and mobilizer may also be mounted on any type of vehicles, with or without using flow establishing devices.

Disclosed are a pollutant capturer and mobilizer and method of mobilizing a polluted gaseous substance from one location towards another location and capturing one or multiple types of polluting substances, such as CO.sub.2, from an atmospheric body of polluted gaseous substance or from exhaust of vehicles, chimneys, or stacks and thereby combat the negative health, environmental, and economic impacts of the of the polluting substances on communities. Wet or dry embodiments of the pollutant capturer and mobilizer utilize wet or dry pollutant capturing components, respectively, to capture one or multiple types of polluting substances from a body of polluted gaseous substance. Flow establishing devices can be used to set the body of polluted gaseous substance in motion through the pollutant capturing component. The pollutant capturer and mobilizer may also be mounted on any type of vehicles, with or without using flow establishing devices.

Exemplary embodiments of the present disclosure are directed towards a water tapping device for extracting water from the air in the environment comprising: a first hemisphere and a second hemisphere in an attachable and detachable manner, a first end of a cylindrical connector connected to the first hemisphere and a second end of the cylindrical connector connected to the second hemisphere respectively, air vents configured to suck air fluid and reaches the cylindrical connector comprising first rotor and second rotor configured to rotate with free air movement, gears configured to enable the first rotor and the second rotor to spin in any direction, the first rotor blades and the second rotor blades are aligned to optimize the rotation using free air movement, the air vents configured to create air pressure for condensation of pressurized air in first hemisphere and then condense pressurized air into water in second hemisphere.

Exemplary embodiments of the present disclosure are directed towards a water tapping device for extracting water from the air in the environment comprising: a first hemisphere and a second hemisphere in an attachable and detachable manner, a first end of a cylindrical connector connected to the first hemisphere and a second end of the cylindrical connector connected to the second hemisphere respectively, air vents configured to suck air fluid and reaches the cylindrical connector comprising first rotor and second rotor configured to rotate with free air movement, gears configured to enable the first rotor and the second rotor to spin in any direction, the first rotor blades and the second rotor blades are aligned to optimize the rotation using free air movement, the air vents configured to create air pressure for condensation of pressurized air in first hemisphere and then condense pressurized air into water in second hemisphere.

Composite coatings that passively cool when exposed to the sky are provided. The composite coatings are suitable for increasing atmospheric condensation on a surface of a substrate. In particular, the composite coatings may be suitable for capturing atmospheric water. Also provided are methods for producing the composites coatings, methods for coating the surface of substrates with the composite coatings, methods for condensing and collecting atmospheric water, and systems for collecting condensed atmospheric water.

A portable gas water maker comprises a water maker body with a shell having a hollow structure. A water inlet communicating with the shell and used for injecting water into the shell is formed at an upper end of the water maker body. The water maker body is inverted U-shaped, so that the lower half part of the water maker body is divided into a left cavity and a right cavity. One group of Peltier semiconductor assemblies is arranged in each of the left cavity and the right cavity. A front-end semiconductor and a rear-end semiconductor in each group of Peltier semiconductor assemblies are connected through a wire. The group of semiconductor assemblies in the left cavity is used for generating electricity, and the group of semiconductor assemblies in the right cavity is used for refrigeration.

A portable gas water maker comprises a water maker body with a shell having a hollow structure. A water inlet communicating with the shell and used for injecting water into the shell is formed at an upper end of the water maker body. The water maker body is inverted U-shaped, so that the lower half part of the water maker body is divided into a left cavity and a right cavity. One group of Peltier semiconductor assemblies is arranged in each of the left cavity and the right cavity. A front-end semiconductor and a rear-end semiconductor in each group of Peltier semiconductor assemblies are connected through a wire. The group of semiconductor assemblies in the left cavity is used for generating electricity, and the group of semiconductor assemblies in the right cavity is used for refrigeration.

Apparatus for producing liquid water from the condensation of atmospheric water vapor includes a transportable housing defining a first air inlet, a second air inlet, and an air outlet; first and second doors operable selectively to open and close the first and second air inlets, respectively; and at least one water condensation unit located in the housing between the first air inlet and the air outlet, and between the second air inlet and the air outlet. The housing is configured so that, when at least one of the first and second air inlets is open, at least a portion of an air flow into the at least one open air inlet is passed through the at least one condensation unit and out the air outlet.

Apparatus for producing liquid water from the condensation of atmospheric water vapor includes a transportable housing defining a first air inlet, a second air inlet, and an air outlet; first and second doors operable selectively to open and close the first and second air inlets, respectively; and at least one water condensation unit located in the housing between the first air inlet and the air outlet, and between the second air inlet and the air outlet. The housing is configured so that, when at least one of the first and second air inlets is open, at least a portion of an air flow into the at least one open air inlet is passed through the at least one condensation unit and out the air outlet.

An apparatus to separate water droplets from an air stream. The apparatus includes an elongated tube, a reservoir, and a helix structure. The elongated tube has a first end, a second end, a longitudinal axis, an inner surface, an inlet opening at the first end of the elongated tube, the inlet opening arranged to accept the air stream tangentially relative to the longitudinal axis, and an outlet opening at the second end of the elongated tube. The reservoir is positioned at a second end of the elongated tube. The helix structure is positioned within the elongated tube and includes an upper surface, a lower surface arranged opposite the upper surface, an outer edge, and a variable pitch along a length of the elongated tube, the variable pitch providing a variable interior angle between an inner wall of the elongated tube and the upper surface of the helix structure.