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A modular frame system for support of pressure vessels used in water treatment systems comprising a plurality of frame cells is disclosed, where each frame cell is releasably attachable to other frame cells in a variety of relationships. The frame cells may be attached horizontally, vertically, or s

A modular frame system for support of pressure vessels used in water treatment systems comprising a plurality of frame cells is disclosed, where each frame cell is releasably attachable to other frame cells in a variety of relationships. The frame cells may be attached horizontally, vertically, or side-by-side. The frame cells are designed to accommodate a variety of pressure vessels having different sizes and weights, and having different connections for connection to other pressure vessels.

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1. A modular frame system for supporting a plurality of vessels, comprising: a plurality of frame cells, each frame cell comprising: two lengthwise arms each comprising a proximal end and a distal end, each further comprising a top surface, a bottom surface and an outer side surface, wherein the top

1. A modular frame system for supporting a plurality of vessels, comprising: a plurality of frame cells, each frame cell comprising: two lengthwise arms each comprising a proximal end and a distal end, each further comprising a top surface, a bottom surface and an outer side surface, wherein the top surface, bottom surface and outer side surface of each lengthwise arm forms a cavity within the lengthwise arm;two or more support beams releasably attached to each of the lengthwise arms, wherein the support beams are substantially the same length such as to dispose the two lengthwise arms in a parallel configuration, wherein the two lengthwise arms and two of the support beams, when attached, form a base of the frame cell; andfour upright support columns each having a hollow interior, wherein each upright support column comprises a vertical column attached to and rising from a separate corner of the base of the frame cell, an arm at the top end of the vertical column extending horizontally at a right angle inwardly toward the opposite lengthwise arm to which the upright support column is attached and a vertical riser extending vertically from the end of each arm,wherein the four support columns, the two lengthwise arms and the two or more support beams form a cavity in which a vessel can be placed,wherein one or more of the support beams comprises a saddle disposed substantially in the center of the support beam, wherein the saddle is configured to cradle the vessel,wherein a plurality of frame cells are attached to form a modular frame system for supporting a plurality of vessels. 2. The modular frame system of claim 1, wherein the vessel comprises a pressure vessel for use in a water treatment system. 3. The modular frame system of claim 2, wherein each saddle is height adjustable to accommodate the height of the vessel and to accommodate fittings of vessels in adjacent frame cells. 4. The modular frame system of claim 3, wherein the height of the saddle is adjusted by disposing one or more plates between the bottom of the saddle and the top of the support beam on which the saddle is disposed. 5. The modular frame system of claim 2, wherein the vertical riser of each upright support column is configured to releasably attach to the bottom of an adjacent frame cell to form the modular frame system. 6. The modular frame system of claim 2, wherein one or more support beams comprises a top cover and a U-shaped base, wherein the top cover is releasably attached to the U-shaped base. 7. The modular frame system of claim 2, further comprising a plurality of adapters releasably attached to the top surface of each corner of the base of each frame cell, wherein each adapter is sized to fit inside the hollow interior of an upright support column, wherein each upright support column is attached to an adapter. 8. The modular frame system of claim 7, wherein the height of each adapter is configured according to the size of the vessel. 9. The modular frame system of claim 2, wherein the lengthwise arms, the support beams, and the upright support columns comprise a composite material or a plastic. 10. The modular frame system of claim 9, wherein the composite material comprises plastic. 11. The modular frame system of claim 10, wherein the plastic comprises a resin. 12. The modular frame system of claim 11, wherein the resin comprises acetal resin. 13. The modular frame system of claim 9, wherein the saddles comprise a deformable material. 14. The modular frame system of claim 13, wherein the deformable material comprises rubber. 15. A method of supporting a plurality of vessels, comprising: determining the length, width and height of each of a plurality of vessels;determining the configuration of the plurality of vessels;designing a modular frame system to accommodate the plurality of vessels in the determined configuration; andbuilding a modular frame system to accommodate the plurality of vessels in the determined configuration,wherein the modular frame system comprises a plurality of frame cells attached to each other in the determined configuration, each frame cell comprising: two lengthwise arms each comprising a proximal end and a distal end, each further comprising a top surface, a bottom surface and an outer side surface, wherein the top surface, bottom surface and outer side surface of each lengthwise arm forms a cavity within the lengthwise arm;two or more support beams releasably attached to each of the lengthwise arms, wherein the support beams are substantially the same length such as to dispose the two lengthwise arms in a parallel configuration, wherein the two lengthwise arms and two of the support beams, when attached, form a base of the frame cell;four upright support columns each having a hollow interior, wherein each upright support column comprises a vertical column attached to and rising from a separate corner of the base of the frame cell, an arm at the top end of the vertical column extending horizontally at a right angle inwardly toward the opposite lengthwise arm to which the upright support column is attached and a vertical riser extending vertically from the end of each arm; anda plurality of adapters releasably attached to the top surface of each corner of the base of each frame cell, wherein each adapter is sized to fit inside the hollow interior of an upright support column, wherein each upright support column is attached to an adapter,wherein the four support columns, the two lengthwise arms and the two or more support beams form a cavity in which each vessel can be placed,wherein one or more of the support beams comprises a saddle disposed substantially in the center of the support beam, wherein the saddle is configured to cradle each vessel, wherein each saddle is height adjustable to accommodate the height of the vessel and to accommodate fittings of vessels in adjacent frame cells. 16. The method of claim 15, wherein each vessel comprises a pressure vessel for use in a water treatment system. 17. The method of claim 16, wherein one or more support beams comprises a top cover and a U-shaped base, wherein the top cover is releasably attached to the U-shaped base. 18. The method of claim 16, wherein the lengthwise arms, the support beams, and the upright support columns comprise plastic. 19. The method of claim 18, wherein the plastic comprises acetal resin. 20. The method of claim 16, wherein the saddles comprise a deformable material.