Hydrostatic mechanical face seal

What is claimed is: 1. A pump comprising: a rotatable shaft having an axial length; a housing having an annular interior wall that surrounds and is spaced from at least a portion of the axial length of the rotatable shaft; a first seal support ring having a face on either side with the first seal support ring fixedly attached to, extending around and rotatable with the rotatable shaft, the first seal support ring having an axially extending first boss on one face of the first seal support ring at or proximate a radial inner end adjacent the rotatable shaft, and an axially extending, annular shroud at or proximate an outer end of the one face of the first seal support ring, with a lip at or near a peripheral axial end of the first seal support ring shroud extending toward the rotatable shaft, with an annular, first recess in the one face of the first seal support ring extending between the first boss and the first seal support ring shroud; a first face plate supported at one end, opposing the one face on the first seal support ring, on at least a portion of the first boss, spaced from the rotatable shaft, with the one end of the first face plate substantially spanning the first recess and having a radially extending ledge on an outer side that fits under the lip on the first seal support ring shroud, with a first land on either an inner wall on the shroud of the first seal support ring or the outer side of the first face plate, below and spaced from the lip, that forms a standoff between the shroud on the first seal support ring and the first face plate, the first face plate having another end, axially opposite the one end that forms a first sealing surface, with the first sealing surface extending axially past the lip on the first seal support ring shroud and the first face plate extending around and rotatable with the rotatable shaft, wherein the shroud on the first seal support ring is configured to limit radial outward movement of the first face plate without applying an axial clamping force on the first sealing surface during pump operation; a second seal support ring having a face on either side, with the second seal support ring secured to an interior of the housing with a degree of freedom of axial movement and spaced from and extending at least partially around the rotatable shaft, the second seal support ring having an axially extending second boss on one face of the second seal support ring at or proximate a radial inner end adjacent the rotatable shaft, and an axially extending, annular shroud at or proximate an outer end of the one face of the second seal support ring with a lip at or near a peripheral axial end of the second seal support ring shroud extending toward the rotatable shaft, with a second annular recess in the one face of the second seal support ring extending between the second boss and the second seal support ring shroud; and a second face plate supported at one end, opposing the one face on the second seal support ring, on at least a portion of the second boss, spaced from the rotatable shaft, with the one end of the second face plate substantially spanning the second recess and having a radially extending ledge on an outer side of the second face plate that fits under the lip on the second seal support ring shroud with a second land on either an inner wall on the shroud of the second seal support ring or the outer side of the second face plate, below and spaced from the lip on the second seal support ring shroud, that forms a standoff between the shroud on the second seal support ring and the second face plate, the second face plate having another end, axially opposite the one end on the second face plate, that forms a second sealing surface, with the second sealing surface extending axially past the lip on the shroud of the second seal support ring, juxtaposed to the first sealing surface and the second face plate extending substantially around and spaced from the rotatable shaft, wherein the shroud on the second seal support ring is configured to limit radial outward movement of the second face plate without applying an axial clamping force on the second sealing surface during pump operation. 2. The pump of claim 1 wherein at least one of the first sealing surface and the second sealing surface is configured to have a contoured surface that is axis-symmetric but non-uniform in a radial direction to create a nonlinear pressure distribution between the first sealing surface and the second sealing surface. 3. The pump of claim 1 wherein the second face plate has the second sealing surface with the contoured surface that is axis-symmetric but non-uniform in a radial direction to create a nonlinear pressure distribution between the first sealing surface and the second sealing surface. 4. The pump of claim 1 wherein the at least one of the first sealing surface and the second sealing surface is a tapered surface that yields a convergent angle between the first sealing surface and the second sealing surface with the largest axial clearance at the outside diameter and the smallest axial clearance at the inside diameter. 5. The pump of claim 4 wherein the at least one of the first sealing surface and the second sealing surface has a stepped or non-uniform texture surface. 6. The pump of claim 1 wherein the at least one of the first sealing surface and the second sealing surface has a stepped or non-uniform texture surface. 7. The pump of claim 1 including a first O-ring around an outside surface of the first boss at an interface of the first boss with the one end of the first face plate. 8. The pump of claim 7 wherein while the radially extending ledge on the first face plate fits under the lip on the first seal support ring shroud, during operation of the pump the first seal support ring and the first face plate are configured so substantially no mechanical force is applied to the first face plate to hold the first face plate against the first seal support ring and during pump operation the radially extending ledge does not contact the lip on the first seal support ring shroud. 9. The pump of claim 7 including a second O-ring around an outside surface of the second boss at an interface of the second boss with the one end of the second face plate. 10. The pump of claim 9 wherein the first seal support ring comprises a first groove that surrounds the rotatable shaft and a third O-ring surrounds the rotatable shaft within the first groove and forms a seal between the first seal support ring and the rotatable shaft; and the second seal support ring comprises a second groove that surrounds a portion of the housing adjacent the rotatable shaft and a fourth O-ring surrounds the portion of the housing, within the second groove, between the second seal support ring and the portion of the housing and forms a seal between the second seal support ring and the portion of the housing. 11. A hydrostatic mechanical face seal comprising: a first seal support ring having a face on either side with the first seal support ring configured to fixedly attached to, extend around and rotate with a rotatable shaft that, aside from some controlled leakage, the hydrostatic mechanical seal is intended to substantially isolate from a process fluid on an outer surface of the first seal support ring, the first seal support ring having an axially extending first boss on one face of the first seal support ring at or proximate a radial inner end adjacent the rotatable shaft, and an axially extending, annular shroud at or proximate an outer end of the one face of the first seal support ring, with a lip at or near a peripheral axial end of the first seal support ring shroud extending toward the rotatable shaft, with an a