Re-fracture apparatus and method for wellbore

What is claimed is: 1. A method of re-treating a formation having a wellbore, the method comprising: deploying, in the wellbore, a tubing string having a plurality of tools disposed at intervals thereon, each of the tools having a plurality of biased split rings and a plurality of retentions rings disposed thereabout, at least two of the biased split rings on each of the tools having splits longitudinally misaligned with one another, opposing lips on at least one of the retention rings radially holding opposing edges of the biased split rings, the retention rings sealing an annular space between the retention rings and an outside of each of the tools; passively engaging the biased split rings of each the tools with the wellbore; accessing the annulus between the tubing string and the wellbore at the intervals between adjacent ones of the tools; and pumping retreatment into the formation by pumping the retreatment down the tubing string, out the access to the annulus in the intervals between the adjacent ones of the tools, and at least partially sealed in the intervals by the engaged split rings and by the sealed retention rings of the tools. 2. The method of claim 1 , wherein deploying, in the wellbore, the tubing string having the plurality of tools disposed at the intervals thereon comprises positioning the tools on the tubing string by coupling a tool housing to sections of the tubing string. 3. The method of claim 1 , wherein pumping the retreatment at least partially sealed in the intervals by the engaged split rings and by the sealed retention rings of the tools comprising creating a tortuous fluid path in the annulus between the longitudinally misaligned splits in the at least two biased split rings on each of the tools. 4. The method of claim 1 , wherein passively engaging the biased rings of the tools with the wellbore comprises fixing the biased rings axially with shoulders on the tools. 5. The method of claim 1 , wherein accessing the annulus between the tubing string and the wellbore at the intervals between the tools comprises opening sliding sleeves disposed on the tubing string at the intervals between the tools. 6. The method of claim 5 , wherein opening the sliding sleeves disposed on the tubing string at the intervals between the tools comprises selectively opening one or more of the sliding sleeves at a time prior to pumping the retreatment into the formation. 7. The method of claim 1 , wherein accessing the annulus between the tubing string and the wellbore at the intervals between the tools comprises perforating the tubing string at the intervals between the tools. 8. The method of claim 7 , wherein perforating the tubing string at the intervals between the tools comprises successively perforating along the tubing string at each of the intervals. 9. The method of claim 1 , wherein pumping the retreatment at least partially sealed in the intervals by the engaged split rings of the tools comprising pumping with a capacity exceeding a leakage rate past the splits in the engaged split rings of the adjacent one of the tools. 10. The method of claim 1 , wherein passively engaging the biased rings of the tools with the wellbore comprises providing the rings with an unbiased diameter at least greater than an inner dimension of the wellbore. 11. The method of claim 1 , wherein pumping the retreatment into the formation comprises pumping a fluid treatment selected from the group consisting of acid, steam, fracture fluid, proppant, and slurry. 12. A tool for a retreatment of a formation having a wellbore using a tubing string, the tool comprising: a housing positioning on the tubing string; and a plurality of split rings disposed adjacent one another about the housing and biased outward, at least two of the biased split rings having splits longitudinally misaligned with one another, the split rings passively engageable with the wellbore and at least partially sealing intervals of the annulus between the tubing string and the wellbore above and below the split rings; and retention rings disposed about the housing and opposing lips on at least one of the retention rings radially holding opposing edges of the adjacent split rings. 13. The tool of claim 12 , wherein the housing comprises first and second ends coupling to sections of the tubing string. 14. The tool of claim 12 , wherein the longitudinally misaligned splits in the at least two biased split rings define a tortuous fluid path in the annulus. 15. The tool of claim 12 , wherein the split rings comprise an unbiased diameter at least greater than an inner dimension of the wellbore. 16. The tool of claim 12 , wherein the retention rings comprise seals disposed on an inner surface thereof for sealing against the outer surface of the housing. 17. The tool of claim 12 , wherein the housing defines upper and lower shoulders on an exterior thereof and restricting axial movement of the rings along a length of the housing. 18. The tool of claim 12 , wherein the split rings comprise a metallic material. 19. The tool of claim 12 , wherein the split rings define beveled edges permitting sliding engagement of the rings in and out of the wellbore. 20. An apparatus for a retreatment of a formation having a wellbore, the apparatus comprising: one or more tubulars for deploying in the wellbore adjacent the formation; retention shoulders positioning on the one or more tubulars; and a plurality of split rings positioned together at a plurality of intervals about the one or more tubulars between the retention shoulders and being biased outward, at least two of the biased split rings positioned together at each of the intervals having splits longitudinally misaligned with one another, the split rings passively engageable with the wellbore and at least partially sealing intervals of the annulus between the tubing string and the wellbore above and below the split rings; and retention rings disposed about the housing and sealing an annular space between the retention rings and an outer surface of the housing, opposing lips on at least one of the retention rings radially holding opposing edges of the adjacent split rings. 21. The apparatus of claim 20 , wherein the one or more tubulars comprise an increased external dimension relative to the internal dimension of the wellbore, whereby the annulus formed therebetween is narrow.