Apparatuses and methods for forming hollow spheres

The invention claimed is: 1. A hollow sphere forming apparatus comprising: a heatable liquid material reservoir defining a heatable inner volume; at least one fluid outlet configured such that an inner opening of each of said at least one fluid outlet is in fluid communication with the heatable inner volume and an outer opening of each of said at least one fluid outlet is in fluid communication with an exterior of the heatable inner volume; at least one upper nozzle plate at least partially disposed within the heatable inner volume above the at least one fluid outlet, the at least one upper nozzle plate having at least one tube retaining passage disposed therethrough; at least one gas tube in fluid communication with a gas supply exterior to the heatable inner volume and secured within the at least one tube retaining passage such that at least an outlet end of the at least one gas tube is disposed within the at least one fluid outlet such that an annular opening is formed between an outer wall of the at least one gas tube and an inner wall of the at least one fluid outlet, and wherein the at least one upper nozzle plate is movably mounted within the heatable liquid material reservoir such that the radial position of the at least one gas tube relative to the at least one fluid outlet is adjustable; and at least three spacers disposed between the at least one upper nozzle plate and the at least one fluid outlet, and wherein the height of at least two of the at least three spacers are separably adjustable such that the axial and angular position of the at least one gas tube relative to the at least one fluid outlet is adjustable. 2. The hollow sphere forming apparatus of claim 1 , further comprising a cooling tube having at least one opening disposed adjacent the outer opening of the at least one fluid outlet, and being of sufficient height to allow hollow spheres to cool and solidify therein during transit therethrough. 3. The hollow sphere forming apparatus of claim 2 , wherein the cooling tube further comprises at least one device disposed along the length thereof selected from the group consisting of gauges, viewports, heating elements, cooling elements, valves, gas feed-throughs, electrical feed-throughs, and sealable openings. 4. The hollow sphere forming apparatus of claim 1 , further comprising a cooling vessel defining a coolable inner volume, and wherein one or more elements of the apparatus are disposed within the coolable inner volume hollow sphere forming. 5. The hollow sphere forming apparatus of claim 1 , wherein the at least one fluid outlet is disposed in a bottom nozzle plate disposed adjacent to outer walls of the liquid material reservoir heatable. 6. The hollow sphere forming apparatus of claim 5 , wherein a pressurizable seal is formed between the bottom nozzle plate and the heatable liquid material reservoir, the pressurizable seal being selected from the group consisting of gaskets, knife edges, and mateable surfaces. 7. The hollow sphere forming apparatus of claim 1 , wherein the at least three spacers are one or more washers or threaded rods. 8. The hollow sphere forming apparatus of claim 1 , wherein one or more components of the hollow sphere forming apparatus disposed within the heatable inner volume are formed from materials selected from the group consisting of tungsten, molybdenum, platinum, rhodium, tantalum, graphite or alloys or oxides or carbides of the materials listed. 9. The hollow sphere forming apparatus of claim 1 , wherein at least a portion of the at least one gas tube is press fit into the at least one upper nozzle plate. 10. The hollow sphere forming apparatus of claim 1 , wherein the at least one gas tube comprises a plurality of separate sections, and wherein at least two sections of the at least one gas tube are fluidly interconnected in the at least one upper nozzle plate. 11. The hollow sphere forming apparatus of claim 10 , wherein at least one section of the at least one gas tube is press fit into the at least one upper nozzle plate and wherein at least one section of the at least one gas tube is threaded into the at least one upper nozzle plate. 12. The hollow sphere forming apparatus of claim 10 , wherein the at least one upper nozzle plate comprises at least two separate and adjacently disposed interconnected plates. 13. The hollow sphere forming apparatus of claim 10 , wherein the at least one upper nozzle plate is secured to the heatable liquid material reservoir in which it is co-located. 14. The hollow sphere forming apparatus of claim 13 , wherein the at least one upper nozzle plate is secured via at least one threaded connector that passes through at least one thru hole disposed therethrough, and wherein the diameter of the at least one thru hole is larger than a diameter of the at least one threaded connector used therewith. 15. The hollow sphere forming apparatus of claim 1 , wherein the heatable liquid material reservoir is adapted to maintain a temperature and liquid material contained therein at least 900° C. 16. The hollow sphere forming apparatus of claim 1 , wherein the heatable liquid material reservoir is surrounded by at least one of a foil or at least one layer of insulation, either or both having a temperature resistance greater than at least from 900° C. 17. A hollow sphere forming apparatus comprising: a pressurizable vessel defining a pressurizable inner volume; a heatable liquid material reservoir defining a heatable inner volume, the heatable liquid material reservoir being disposed within the pressurizable inner volume; at least one fluid outlet configured such that an inner opening of each of said at least one fluid outlet is in fluid communication with the heatable inner volume and an outer opening of each of said at least one fluid outlet is in fluid communication with an exterior of the pressurizable inner volume; at least one upper nozzle plate at least partially disposed within the heatable inner volume above the at least one fluid outlet, the at least one upper nozzle plate having at least one tube retaining passage disposed therethrough; at least one gas tube in fluid communication with a gas supply exterior to the pressurizable inner volume and secured within the at least one tube retaining passage such that at least an outlet end of the at least one gas tube is disposed within the at least one fluid outlet such that an annular opening is formed between an outer wall of the at least one gas tube and an inner wall of the at least one fluid outlet, and wherein the at least one upper nozzle plate is movably mounted within the heatable liquid material reservoir such that the radial position of the at least one gas tube relative to the at least one fluid outlet is adjustable; and at least three spacers disposed between the at least one upper nozzle plate and the at least one fluid outlet, and wherein the height of at least two of the at least three spacers are separably adjustable such that the axial and angular position of the at least one gas tube relative to the at least one fluid outlet is adjustable. 18. The hollow sphere forming apparatus of claim 17 , further comprising a cooling tube having at least one opening disposed adjacent the outer opening of the at least one fluid outlet, and being of sufficient height to allow hollow spheres to cool and solidify therein during transit therethrough, and wherein the cooling tube is configured to be pressurized above or below atmospheric pressure at a pressure independent of the pressure within the pressurizable inner volume.