| 主权项 |
1. An apparatus producing an air product stream using water molecules, with an air tubes, swirl chamber, vortex generator, swirl area, flash drum heat exchange, vent air outlet; spindal housing, air multiplier and an clean water claiming area; said swirl chamber with an inside wall, said swirl chamber with an particles container, said swirl area with an inside wall, said flash drum heat exchange with an water line, with an inside wall, and with an waste channel, said spindal housing houses the fan hub, air multiplier and the brushless motor; said brushless motor would use said air multiplier attached, to draw the air stream through said apparatus; said air multiplier would draw the circumventing air stream through said air tubes, narrowing passageways; said air tubes narrowing passageways circumvent around at the outer diameter of said flash drum heat exchange and connect to the said swirl chamber; said air tubes has one, two, or a plurality of the narrowing passageways; the air stream of said air tubes flows through said swirl chamber with a circumventing movement curving inward alongside said swirl chamber inside wall; within said swirl chamber, the particles and moisture within the circumventing air stream would move to the outer region passing said particles container particle opening; said particles and moisture would expel into said particles container then said particles and moisture exits said apparatus; said apparatus has one, two, or a plurality of said swirl chamber, said swirl chamber swirl chamber has one, two, or a plurality of said particles container; said swirl chamber circumventing air streams enters said vortex generator volute narrowing passageways; said vortex generator air induction caused by the pressure difference accelerates the air stream through the vortex nozzle; the circumventing air streams via said vortex generator volute narrowing passageways; said vortex generator has one, two, or a plurality of said vortex generator volute narrowing passageways; each of the said vortex generator volute narrowing passageways would be ingrained with an said vortex nozzle; said vortex nozzle would be a convergent-divergent nozzle; said vortex nozzle air-stream would flow through said swirl area; said vortex nozzle air stream flows through said swirl area curving inward, circumventing alongside said swirl area inside wall; said vortex nozzle air stream flows through said swirl area curving inward with a movement alongside said swirl area inside wall; said swirl area has one, two, or a plurality of said swirl area; said swirl area narrowing outlets air stream flows through said flash drum heat exchange; said flash drum heat exchange incoming air stream would circumvent inward with a downward movement alongside said inside wall; said flash drum heat exchange incoming air stream would circumvent inward with a downward movement alongside of said inside wall; the incoming high speed circumventing air stream curving inward with a downward movement alongside said would cause an outer vortex; the two or a plurality of said swirl area air stream to via said flash drum heat exchange would advance the forming of the outer vortex air stream that would via alongside said flash drum heat exchange inside wall; said water line supplies the water to said water line outlets; said water line outlets allows the hard water, minerals and any other particles, within said water to fall under gravity alongside said inside wall; the pressure of the downward moving outer vortex would help move the water, hard water, minerals and any other particles move alongside said inside wall toward said waste channel; the hard water, minerals and any other particles, exits said waste channel, then exits said apparatus; said water line, have the means to turn on, off or slow down the supply of water; said intake will comprises of having; one, two or a plurality of intakes and outlets; the outer vortex with an inward and a downward moving circumventing air flow passing said inside wall will absorb the liquid water in an evaporation form absorbing the latent heat within said water molecules; as water flows onto the surface of said inside wall, and is exposed to the downward moving outer vortex, this would allow water molecules to escape and absorb the latent heat and form water/vapor within said outer vortex; the water vapors will be sucked by the pressure difference into the outer region of the vortex spiraling inward, the water molecules spiral inward, as said water molecules would be drawn to the inner vortex by the difference in pressure regions; said outer vortex air stream would be within said flash drum heat exchange advancing toward the lower portion of said spindal housing, the outer vortex at the lower portion of said spindal housing and within said flash drum heat exchange makes a tight curve, moving into the center of said outer vortex; the high speed moving outer vortex, beginning at the top, being the wide end, ends at the bottom end before exiting; then the high speed air stream would advance through the center of the outer vortex, circumventing in an upward movement alongside the outside diameter wall of said spindal housing within said flash drum heat exchange; due to the conical shaped bottom of said fan hub, the outer diameter of the inner vortex is allowed to vent its hotter of the two raising air streams, the inner vortex of reduced diameter at the diameter top end of said flash drum heat exchange, only the separated outer hotter of the inner vortex air rising along the outer diameter of said inner vortex, is allowed to escape the diameter top end of said flash drum heat exchange, venting through said vent air outlet; said vent air outlet have one, two or a plurality of outlets; the remainder of the separated cooler air within the diameter of said inner vortex air stream circumvents in an upward movement alongside the outside diameter wall of said spindal housing, within said flash drum heat exchange, is forced to curve inward by the pressure difference, and allowed to escape, via said spindal housing; said spindal housing comprised of said fan hub, air multiplier and said brushless motor; said air multiplier have one, two, or a plurality of air holes; said air multiplier is located within the center of said spindal housing; said fan hub being at the top end of said air multiplier, going downward toward said air multiplier with its horizontal-axis connected to the said brushless motor at the bottom end of said spindal housing; said air multiplier having air holes designed with an angle to capture the incoming air flow, then continues to flow within said air multiplier air channel being drawn in and then exiting said apparatus; said air multiplier, air stream alongside the outer curve side of said air multiplier curving wall, the air being lighter than the heavier water droplets would separate and would continue to pass over said air multiplier, water droplet openings, and exit said apparatus, the heavier water droplets would separate and by the centrifugal force be expelled into said air multiplier water droplet openings thus entering said clean water claiming area; said apparatus with said air multiplier having the option and the capability to separate the water molecules from the air stream or having the same capability to, or not to, separate the water molecules from said air stream; said apparatus has the option to have a portion of the said vent air outlet vented latent heat channeled via said air multiplier; said apparatus has the option to have a portion of the said air multiplier air stream exiting said apparatus channeling into said clean water claiming area. |
