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A technique facilitates the delivery and testing of a tool string assembly downhole. The technique employs at least one rotatable element valve in the tool string at a location which enables the rotatable element valve to be used for selectively blocking or allowing fluid flow along an interior pass

A technique facilitates the delivery and testing of a tool string assembly downhole. The technique employs at least one rotatable element valve in the tool string at a location which enables the rotatable element valve to be used for selectively blocking or allowing fluid flow along an interior passage of the tool string. A one-way valve, such as a flapper valve, dart valve, or spring loaded ball valve, is deployed within a rotatable element of each rotatable element valve to combine flow control functions, thus enabling a shorter tool string section. The at least one rotatable element valve also may be designed to facilitate pressure testing of the tool string.

대표청구항 ▼

1. A method of facilitating delivery of a tool assembly downhole, comprising: positioning a rotatable element valve within a tool string at a location,placing a one-way valve within the rotatable element valve,positioning a second rotatable element valve in the tool string; and placing a second one-

1. A method of facilitating delivery of a tool assembly downhole, comprising: positioning a rotatable element valve within a tool string at a location,placing a one-way valve within the rotatable element valve,positioning a second rotatable element valve in the tool string; and placing a second one-way valve in the second rotatable element valve;the rotatable element valve and the one-way valve movable between a first position allowing fluid flow along an internal passage of the tool string only in a first direction and a second position allowing fluid flow along the internal passage of the tool string only in a second direction;providing the rotatable element valve with a port for pressure testing; andpressure testing the tool string at least one of above, below and between the first and second rotatable element valves, the pressure testing providing an indication to an operator whether the rotatable element valves remain in good condition for subsequent deployment downhole. 2. The method as recited in claim 1, further comprising delivering the tool string downhole into a wellbore subsequent to pressure testing the tool string. 3. The method as recited in claim 1, further comprising utilizing the first and second rotatable element valves to test quick test stab or quick latch type tools while they are attached to the tool string. 4. The method as recited in claim 1, further comprising utilizing the first and second rotatable element valves to block fluid from escaping out of the tool string while at the surface or during deployment. 5. The method as recited in claim 1, further comprising providing adjustability of the first and second rotatable element valves between a flow down position, a flow block position, and a reverse circulation position. 6. The method as recited in claim 1, further comprising locking the rotatable element valve in an open position to accommodate full bore flow along the internal passage. 7. The method as recited in claim 1, further comprising providing an indicator on an exterior of the tool string to indicate the operational position of the rotatable element valve. 8. The method as recited in claim 1, further comprising pumping a lubricating material through the port. 9. The method as recited in claim 1, further comprising injecting a sealing material through the port in the event of valve failure. 10. The method as recited in claim 1, further comprising using the port to release energized fluid to an external containment and attaching a flow line to the port. 11. The method as recited in claim 1, further comprising using the port to manipulate pressure across the rotatable element valve for exercising control over a downhole tool. 12. A downhole system, comprising: a tool string section having an internal flow passage;a plurality of ball valves positioned in the tool string section, each ball valve having a ball which is adjustable to control flow along the internal flow passage in an uphole direction in a first position and a downhole direction in a second position; anda plurality of one-way valves positioned in an interior of each ball of the plurality of ball valves and configured to block flow in either an uphole direction or a downhole direction depending on the adjusted position of the ball valve, wherein the tool string section comprises a plurality of ports for pressure testing the plurality of ball valves and for attachment of pressure gauges for reading the pressure in any of the valve positions and for testing the pressure integrity of the tool string. 13. The downhole system as recited in claim 12, wherein each one-way valve comprises a flapper and each ball comprises an interior seal against which the flapper is seated when in a closed position. 14. A method of deploying a tool into a wellbore, comprising: positioning a pair of sequential rotatable element valves in a tool string having an internal flow passage, each of the rotatable element valves rotatable between a first position and a second position;locating a pair of one-way valves in the pair of sequential rotatable element valves, each one-way valve operating within a rotatable element of a corresponding rotatable element valve of the pair of sequential rotatable element valves and configured to block flow through the tool string in either an uphole direction or a downhole direction depending on the position of the rotatable valves;arranging the rotatable element valves and the one-way valves in a configuration for a given downhole application;pressure testing each of the valves in the configuration via at least one pressure test access port for each of the pair of valves, the pressure testing verifying the rotating element valves and the one-way valves are holding pressure; anddelivering the tool string downhole into a wellbore after pressure testing the valves. 15. The method as recited in claim 14, further comprising locking each rotatable elements valve at a desired operational position with a locking member. 16. The method as recited in claim 14, further comprising operating the pair of sequential rotatable element valves manually, electrically, or hydraulically. 17. The method as recited in claim 14, wherein pressure testing comprises adjusting the valves to test the valves in a variety of configurations. 18. The method as recited in claim 17, wherein at least one configuration comprises verifying the valves are holding pressure.