High-Temperature, High-Pressure, Fluid-Tight Seal Using a Series of Annular Rings

1 . A method of repeatedly providing an annular, metal-to-metal seal between a metal, annular sliding sleeve and a metal tubular housing in a wellbore extending through a subterranean formation, the housing defining a bore having radially reduced and a radially enlarged portions, the sliding sleeve mounted for movement in the housing and positioned between the housing and a mandrel, the method comprising the steps of: a) creating an annular pressure differential across the sliding sleeve between a first annulus between the sliding sleeve and the housing and a second annulus between the sliding sleeve and the mandrel, and providing a first resistance to fluid flow along the first annulus, and providing a second resistance to fluid flow along the second annulus, and wherein the second resistance is higher than the first resistance. b) radially expanding the sliding sleeve in response to the annular pressure differential; c) sealingly engaging a metal sealing surface against the radially reduced portion of the housing bore in response to the radial expansion of the sleeve; d) moving the sliding sleeve axially into the radially enlarged portion of the housing bore; e) disengaging the metal-to-metal seal in response to the movement into the radially enlarged portion; and f) moving the sliding sleeve back to a position in the radially reduced portion of the housing bore. 2 . (canceled) 3 . The method of claim 1 , wherein step a) further comprises providing the first resistance to fluid flow by resisting fluid flow along the first annulus with a plurality of metal flow resistors mounted on the exterior of the sliding sleeve. 4 . The method of claim 3 , wherein the metal flow resistors are metal rings or a metal coil. 5 . The method of claim 4 , wherein the metal flow resistors are mounted in corresponding grooves defined in the exterior of the sliding sleeve. 6 . (canceled) 7 . The method of claim 1 , wherein step d) further comprises moving the mandrel, and wherein the sliding sleeve is pushed by an annular valve mounted on the mandrel. 8 . The method of claim 1 , wherein step d) further comprises controlling the rate of movement of the sliding sleeve from the radially reduced portion of the housing bore to the radially enlarged portion of the housing bore by flowing fluid through a fluid-metering valve positioned adjacent the sliding sleeve. 9 . The method of claim 8 , further comprising the step of flowing fluid from the second annulus into one or more passageways defined in the fluid-metering valve. 10 . (canceled) 11 . (canceled) 12 . An annular, sliding sleeve assembly for use downhole in a wellbore extending through a subterranean formation, the sliding sleeve assembly comprising: a mandrel positioned in a substantially tubular housing, the housing having an interior surface defining a bore having a radially enlarged portion and a radially reduced portion; a sliding sleeve positioned between the housing and the mandrel, a first annulus defined between the sliding sleeve and the housing, a second annulus defined between the sliding sleeve and the mandrel; the sliding seal defining a metal sealing surface on an exterior surface for sealing contact with the radially reduced portion of the housing bore; the sliding sleeve mounted for axial movement between a first position wherein the sealing surface is adjacent the radially reduced portion of the housing bore, and a second position wherein the sealing surface is adjacent the radially expanded portion of the housing bore; the sliding sleeve elastically, radially expandable in response to an annular pressure differential across the first annulus and second annulus; and a plurality of metal fluid flow resistors mounted on the exterior of the sliding sleeve and operable to impart a first resistance to fluid flowing along the first annulus, the fluid flow resistors operable to create the annular pressure differential; and a metering valve positioned adjacent the sliding sleeve and having passageways defined therein for imparting a second resistance to fluid flowing along the second annulus. 13 . (canceled) 14 . The assembly of claim 12 , wherein the first resistance is less than the second resistance. 15 . (canceled) 16 . (canceled) 17 . The assembly of claim 12 , wherein the metering valve is operable to control the rate of movement of the mandrel within the housing. 18 . The assembly of claim 12 , further comprising a fluid path defined from the second annulus adjacent the sliding sleeve to the passageways of the metering valve. 19 . (canceled)