Wellbore systems with adjustable flow control and methods for use thereof

What is claimed is the following: 1. A wellbore system comprising: a wellbore pipe having a flow control assembly fixedly coupled thereto, the wellbore pipe having an interior space, an outer surface, and one or more autonomous inflow control devices (AICDs) establishing a fluid connection between the interior space and the outer surface of the wellbore pipe, and the flow control assembly comprising one or more flow chambers defined on the outer surface about the one or more AICDs, one or more inlets being fluidly connected to the one or more flow chambers; wherein the one or more inlets are configured to each accept a plug for occluding fluid flow therethrough, so as to limit access of a fluid to an entry location of the one or more AICDs; and a movable cover slidably coupled to the flow control assembly to selectively engage each plug within a corresponding inlet of the one or more inlets. 2. The wellbore system of claim 1 , wherein each plug comprises an axially inserted plug. 3. The wellbore system of claim 1 , wherein each plug comprises a radially inserted plug. 4. The wellbore system of claim 1 , further comprising: a well screen upstream of the one or more inlets that is fluidly coupled thereto; and a flow channel extending between the well screen and the one or more inlets. 5. The wellbore system of claim 4 , wherein the movable cover is located over at least a portion of the flow channel. 6. The wellbore system of claim 5 , wherein the movable cover is a sliding sleeve. 7. The wellbore system of claim 6 , wherein the sliding sleeve is configured to hold each plug in place when each plug inserted is into the corresponding inlet. 8. The wellbore system of claim 1 , wherein the one or more inlets extend beyond the one or more flow chambers and define one or more backside openings on the flow control assembly; wherein the one or more backside openings are configured to accept at least one or more first plugs inserted thereto. 9. The wellbore system of claim 8 , wherein the one or more inlets make a fluid connection to the one or more flow chambers via a sidewall of the one or more inlets. 10. The wellbore system of claim 8 , further comprising: one or more tabs located opposite a corresponding backside opening of the one or more backside openings of each inlet and proximate to an entryway of each inlet, the one or more tabs being configured to occlude further passage of a first plug of the one or more plugs inserted in the corresponding backside opening of the corresponding inlet. 11. The wellbore system of claim 10 , wherein the backside opening of each inlet is further configured to accept a threaded second plug after the first plug, the threaded second plug being configured to hold the first plug in place. 12. The wellbore system of claim 11 , wherein the first plug and the threaded second plug are contiguous with one another. 13. A method comprising: attaching a flow control assembly to a wellbore pipe having an interior space and an outer surface, such that fluid coupling to the interior space of the wellbore pipe takes place via the flow control assembly and one or more autonomous inflow control devices (AICDs) on the wellbore pipe, one or more inlets of the flow control assembly being fluidly connected to one or more flow chambers defined on the outer surface about the one or more AICDs; inserting a plug into each of the one or more inlets by slidably moving a cover coupled to the flow control assembly to selectively engage each plug within a corresponding inlet of the one or more inlets; placing the wellbore pipe and flow control assembly in a wellbore penetrating a subterranean formation; and producing a fluid from the subterranean formation via the wellbore pipe. 14. The method of claim 13 , further comprising: determining a composition of a fluid located in the subterranean formation prior to inserting each plug into the one or more inlets. 15. The method of claim 13 , wherein each plug is inserted radially into one or more inlets. 16. The method of claim 13 , wherein each plug is inserted axially into the corresponding inlet of the one or more inlets. 17. The method of claim 16 , wherein each plug is inserted axially into the corresponding inlet of the one or more inlets from a location between the flow control assembly and a well screen that is fluidly coupled to an entry of the one or more inlets. 18. The method of claim 13 , wherein the one or more inlets extend beyond the one or more flow chambers and define one or more backside openings on the flow control assembly; wherein one or more first plugs of the one or more plugs are inserted into one or more inlets from the one or more backside openings. 19. The method of claim 18 , wherein at least a portion of the first plugs occlude fluid flow from the one or more inlets to the one or more AICDs. 20. The method of claim 19 , wherein at least a portion of the one or more first plugs are held in place by a threaded second plug that is also inserted into one of the backside openings. 21. The method of claim 13 , wherein each plug is inserted into each of the one or more inlets prior to placing the wellbore pipe and flow control assembly in the wellbore. 22. The method of claim 13 , further comprising: injecting a fluid into the subterranean formation by the wellbore pipe, such that the fluid being injected flows from the wellbore pipe through the flow control assembly in a direction opposite to that of the fluid being produced.