This invention is a process to modify weather patterns with electromagnetic systems, by creating and/or limiting eddy currents. Oceanwater's salinity increases its electrical conductivity. The conflict between the Earth's electromagnetic field, and the Coriolis Force, is a factor in cyclogenesis. This invented process utilizes artificially induced electromagnetic eddy currents to generate precipitation systems from Eastward Ocean Currents, as well as limits electromagnetic induction caused by the Earth's electromagnetic field, to stall cyclogenesis.

This invention is a process to modify weather patterns with electromagnetic systems, by creating and/or limiting eddy currents. Oceanwater's salinity increases its electrical conductivity. The conflict between the Earth's electromagnetic field, and the Coriolis Force, is a factor in cyclogenesis. This invented process utilizes artificially induced electromagnetic eddy currents to generate precipitation systems from Eastward Ocean Currents, as well as limits electromagnetic induction caused by the Earth's electromagnetic field, to stall cyclogenesis.

Solar radiation is collected and converted to microwave energy by means maintained in outer space on one or more platforms in space. The microwave energy is then transmitted to earth and directed to and constantly focused on one or more segments of a generally circular and slowly rotating tropical depression, which is a precursor to a tropical storm and then a hurricane (alternatively called a cyclone or typhoon). The focused microwave energy interrupts the cycle of vertical upward and downward movement of air, water, & water vapor, and destabilizes the developing rotational motion of the tropical depression, causing it to break up and dissipate, and preventing it from ultimately developing into a hurricane. When not focusing microwave energy on a tropical depression, the microwave energy can alternatively be used to create earth based solar energy, which would help alleviate costs of operating the system solely for hurricane prevention.

Solar radiation is collected and converted to microwave energy by means maintained in outer space on one or more platforms in space. The microwave energy is then transmitted to earth and directed to and constantly focused on one or more segments of a generally circular and slowly rotating tropical depression, which is a precursor to a tropical storm and then a hurricane (alternatively called a cyclone or typhoon). The focused microwave energy interrupts the cycle of vertical upward and downward movement of air, water, & water vapor, and destabilizes the developing rotational motion of the tropical depression, causing it to break up and dissipate, and preventing it from ultimately developing into a hurricane. When not focusing microwave energy on a tropical depression, the microwave energy can alternatively be used to create earth based solar energy, which would help alleviate costs of operating the system solely for hurricane prevention.

An aeronautical car includes a ground-travel system including a drivetrain; an air-travel system including a detachable portion configured to house a propulsion device configured to provide thrust and to be driven by the drivetrain when the detachable portion is connected to the aeronautical car, and at least one flight mechanism configured to provide lift once the aeronautical car is in motion; and a weather manipulation device. The weather manipulation device may be configured to manipulate at least one aspect of a weather condition while the aeronautical car is in the air.

An aeronautical car includes a ground-travel system including a drivetrain; an air-travel system including a detachable portion configured to house a propulsion device configured to provide thrust and to be driven by the drivetrain when the detachable portion is connected to the aeronautical car, and at least one flight mechanism configured to provide lift once the aeronautical car is in motion; and a weather manipulation device. The weather manipulation device may be configured to manipulate at least one aspect of a weather condition while the aeronautical car is in the air.

The invention concerns a device for seeding a cloud cell, comprising means for conveying an active substance and means for delivering said active substance. In order to comply with standard and safety requirements, said device comprises aerostatic means that cooperate with the means for conveying said active substance. The invention further concerns a system for seeding a cloud cell, comprising a seeding device according to the invention and a remote electronic entity capable of communicating with said device via communication means over a wired or wireless link.

The invention concerns a device for seeding a cloud cell, comprising means for conveying an active substance and means for delivering said active substance. In order to comply with standard and safety requirements, said device comprises aerostatic means that cooperate with the means for conveying said active substance. The invention further concerns a system for seeding a cloud cell, comprising a seeding device according to the invention and a remote electronic entity capable of communicating with said device via communication means over a wired or wireless link.

A fluid dynamic rain-making apparatus includes a first tubular member (10) and a thermal conductor (20). The first tubular member (10) includes a fluid channel having a first opening (12) and a second opening (13). An axial cross section of the fluid channel (11) decreases from the first opening (12) toward the second opening (13). The thermal conductor (20) includes a second tubular member (21) attached to the second opening (13) of the first tubular member (10) and heat sinks (22) circumferentially arranged on an outer surface thereof. A fluid (A) enters the fluid channel (11) from the first opening (11) and forms a cooled fluid (A1) through flowing through the fluid channel (11) for cooling the second tubular member (21), thus the heat sinks (22) are cooler than the external fluid (A). Accordingly, moist air is cooled to reach the dew point to form water drop for rainfall.

A fluid dynamic rain-making apparatus includes a first tubular member (10) and a thermal conductor (20). The first tubular member (10) includes a fluid channel having a first opening (12) and a second opening (13). An axial cross section of the fluid channel (11) decreases from the first opening (12) toward the second opening (13). The thermal conductor (20) includes a second tubular member (21) attached to the second opening (13) of the first tubular member (10) and heat sinks (22) circumferentially arranged on an outer surface thereof. A fluid (A) enters the fluid channel (11) from the first opening (11) and forms a cooled fluid (A1) through flowing through the fluid channel (11) for cooling the second tubular member (21), thus the heat sinks (22) are cooler than the external fluid (A). Accordingly, moist air is cooled to reach the dew point to form water drop for rainfall.