Method and apparatus for wellbore fluid treatment

The invention claimed is: 1. A method for fluid treating a formation, the method comprising: positioning a tubing string in a non-vertical section of a borehole in the formation, the tubing string comprising: a first port configured to pass fluid from an inner bore of the tubing string to outside the tubing string, a second port configured to pass fluid from the inner bore of the tubing string to outside the tubing string, the second port being down hole from the first port, a third port configured to pass fluid from the inner bore of the tubing string to outside the tubing string, the third port being down hole from the second port, a first sliding sleeve having a seat with a first diameter, the first sliding sleeve being moveable between (i) a closed port position wherein the first sliding sleeve covers the first port and allows fluid to pass down hole of the seat of the first sliding sleeve and (ii) an open port position wherein the first sliding sleeve exposes the first port to the inner bore of the tubing string, the first sliding sleeve being actuatable, by a first fluid conveyed sealing device, to move from the closed port position to the open port position, a second sliding sleeve having a seat with a second diameter smaller than the first diameter, the second sliding sleeve being moveable between (i) a closed port position wherein the second sliding sleeve covers the second port and allows fluid to pass down hole of the seat of the second sliding sleeve and (ii) an open port position wherein the second sliding sleeve exposes the second port to the inner bore of the tubing string, the second sliding sleeve being actuatable, by a second fluid conveyed sealing device, to move from the closed port position to the open port position, and a third sliding sleeve configured to move by fluid pressure within the inner bore of the tubing string, without requiring engagement with any sealing device, between (i) a closed port position wherein the third sliding sleeve covers the third port and (ii) an open port position wherein the third sliding sleeve exposes the third port to the inner bore of the tubing string; applying a sliding-sleeve-actuating fluid pressure within the inner bore of the tubing string such that the third sliding sleeve moves, without requiring engagement with any sealing device, from the closed port position to the open port position, thereby permitting fluid flow through the tubing string; pumping fluid from the inner bore of the tubing string through the third port; conveying the second fluid conveyed sealing device through the inner bore of the tubing string such that the second fluid conveyed sealing device passes the first sliding sleeve and lands in and seals against the seat of the second sliding sleeve thereby sealing against fluid flow down hole of the seat of the second sliding sleeve and moving the second sliding sleeve to the open port position exposing the second port to the inner bore of the tubing string; pumping fluid through the second port to treat a first portion of the formation; conveying the first fluid conveyed sealing device through the inner bore of the tubing string such that the first fluid conveyed sealing device lands in and seals against the seat of the first sliding sleeve thereby sealing against fluid flow down hole of the seat of the first sliding sleeve and moving the first sliding sleeve to the open port position exposing the first port to the inner bore of the tubing string; and pumping fluid through the first port to treat a second portion of the formation. 2. The method of claim 1 , wherein the pumping fluid through the second port to treat the first portion of the formation comprises pumping fracturing fluid through the second port to fracture the first portion of the formation; wherein the pumping fluid through the first port to treat the second portion of the formation comprises pumping fracturing fluid through the first port to fracture the second portion of the formation; and wherein the pumping the fluid through the third port comprises pumping fracturing fluid through the third port to fracture a third portion of the formation. 3. The method of claim 2 , wherein the third port is the down-hole-most port of the tubing string through which fracturing fluid is pumped. 4. The method of claim 3 , wherein the third port is adjacent a down hole end of the tubing string. 5. The method of claim 2 , wherein the fracturing fluid comprises proppants. 6. The method of claim 5 , wherein the proppants comprise sand. 7. The method of claim 5 , wherein the proppants comprise bauxite. 8. The method of claim 2 , wherein the first fluid conveyed sealing device comprises a first ball, and wherein the second fluid conveyed sealing device comprises a second ball. 9. The method of claim 2 , further comprising: setting a first packer of the tubing string, the first packer being up hole from the first port; setting a second packer of the tubing string, the second packer being between the first port and the second port; and setting a third packer of the tubing string, the third packer being down hole from the second port, wherein the first, second, and third packers, when set, create a first annular segment between the first and second packers, a second annular segment between the second and third packers, and a third annular segment down hole of the third packer, wherein the first annular segment is substantially isolated from fluid communication with the second annular segment by the second packer, wherein the second annular segment is substantially isolated from fluid communication with the third segment by the third packer, and wherein the first, second, and third annular segments provide access to the formation. 10. The method of claim 9 , wherein the first, second, and third packers each seal against a corresponding open hole and uncased portion of the borehole. 11. The method of claim 10 , wherein at least one of the first, second, and third packers comprises a solid element that extrudes when the packer is set. 12. The method of claim 11 , wherein the at least one of the first, second, and third packers is hydraulically actuated. 13. The method of claim 12 , further comprising applying a packer-setting fluid pressure within the inner bore of the tubing string before the applying the sliding-sleeve-actuating fluid pressure within the inner bore, thereby setting at least one of the first, second, and third packers. 14. The method of claim 13 , wherein the packer-setting fluid pressure is less than the sliding-sleeve-actuating fluid pressure. 15. The method of claim 1 , further comprising: setting a first packer of the tubing string, the first packer being up hole from the first port; setting a second packer of the tubing string, the second packer being between the first port and the second port; and setting a third packer of the tubing string, the third packer being down hole from the second port, wherein the first, second, and third packers, when set, create a first annular segment between the first and second packers, a second annular segment between the second and third packers, and a third annular segment down hole of the third packer, wherein the first annular segment is substantially isolated from fluid communication with the second annular segment by the second packer, wherein the second annular segment is substantially isolated from fluid communication with the third segment by the third packer, and wherein the first, second, and third annular segments provide access to the formation. 16. The method of claim 15 , wherein