A magnetohydrodynamic cavitation fusion energy generator comprising an internal armature rotatably arranged within a reactor vessel. The generator further comprises a lithium-ammonia fuel dispersed between the internal armature and the reactor vessel. The reactor vessel further comprises a plurality of external magnets and at least one extraction electrode configured to extract current from fusion reactions in the fuel. The internal armature further comprises a plurality of cavitation cavities, a plurality of internal magnets, and at least one facilitation electrode configured to arc for the facilitation of fusion. The plurality of internal magnets and the plurality of external magnets are arranged relative to one another to create a magnetic field within the reactor vessel when the internal armature is rotated relative to the reactor vessel.

A magnetohydrodynamic cavitation fusion energy generator comprising an internal armature rotatably arranged within a reactor vessel. The generator further comprises a lithium-ammonia fuel dispersed between the internal armature and the reactor vessel. The reactor vessel further comprises a plurality of external magnets and at least one extraction electrode configured to extract current from fusion reactions in the fuel. The internal armature further comprises a plurality of cavitation cavities, a plurality of internal magnets, and at least one facilitation electrode configured to arc for the facilitation of fusion. The plurality of internal magnets and the plurality of external magnets are arranged relative to one another to create a magnetic field within the reactor vessel when the internal armature is rotated relative to the reactor vessel.

The vertical pipe structure for water and energy harvesting is an artificial structure formed from concentric sets or rings of pipes having sufficient height such that atmospheric water vapor will condense on upper ends thereof. Water vapor condensing on external faces of the pipes flows downward, under the force of gravity, for collection in at least one reservoir. Water vapor condensing on internal faces of the pipes also flows downward within the concentric sets or rings of pipes for collection in an underground chamber. At least one hydrodynamic generator or the like is provided on the exterior of the artificial structure, such that water flowing thereover may be used for the generation of power.