Internal adjustments to autonomous inflow control devices

What is claimed is: 1. An inflow control device (ICD) assembly, comprising: a base pipe defining one or more flow ports and an interior; at least one ICD arranged on the base pipe and having at least one fluid inlet and an outlet in fluid communication with one of the one or more flow ports, wherein the ICD comprises: a top plate; and a bottom plate detachably engaged with the top plate to define a flow chamber therebetween, the bottom plate defining the outlet; and a plug configured to be arranged in at least one of the at least one fluid inlet and the outlet of the at least one ICD by a well operator on-site. 2. The ICD assembly of claim 1 , further comprising a sleeve mechanically coupled to the base pipe and configured to be removed by the well operator on-site to provide access to the ICD. 3. The ICD assembly of claim 2 , wherein the sleeve is at least one of mechanically-fastened and threaded to a structural feature connected to the base pipe. 4. The ICD assembly of claim 2 , further comprising a spacer member interposing the top plate and the sleeve, the spacer member being configured to urge the top plate into engagement with the bottom plate when secured with the sleeve. 5. The ICD assembly of claim 4 , wherein the spacer member is made of at least one of a metal and an elastomer. 6. The ICD assembly of claim 2 , wherein the top plate has at least one wall and the plug extends through a hole defined in the wall and includes a head and a stem extending longitudinally from the head and into the outlet to substantially occlude the one of the one or more flow ports. 7. The ICD assembly of claim 1 , wherein the plug is made of at least one of a metal, a carbide, a degrading material, and a dissolving material. 8. The ICD assembly of claim 1 , wherein the plug is at least one of threaded into the at least one fluid inlet or the outlet, press-fitted into the at least one fluid inlet or the outlet, bonded in the at least one fluid inlet or the outlet, and shrink-fitted into the at least one fluid inlet or the outlet. 9. The ICD assembly of claim 1 , wherein the plug is a window arranged in the at least one fluid inlet and exhibits a thickness configured to allow the well operator to break the window on-site and thereby allow fluids to pass through the at least one ICD. 10. The ICD assembly of claim 1 , wherein the plug is installed proximate the outlet by the well operator on-site via the interior of the base pipe and the one of the one or more flow ports. 11. The ICD assembly of claim 10 , wherein the plug defines a flow conduit therethrough that fluidly communicates with the interior of the base pipe and exhibits a diameter corresponding to a predetermined flow rate of a fluid therethrough. 12. The ICD assembly of claim 10 , further comprising a lock nut configured to be threaded into the one of the one or more flow ports to secure the plug in the outlet. 13. A method, comprising: receiving an inflow control device (ICD) assembly subsequent to its manufacture, the ICD assembly including a base pipe defining one or more flow ports and an interior, and an ICD arranged on the base pipe, wherein the ICD comprises: a top plate; and a bottom plate detachably engaged with the top plate to define a flow chamber therebetween, the bottom plate defining an outlet; manipulating a plug while on-site in at least one of a fluid inlet and the outlet of the ICD, the outlet being in fluid communication with one of the one or more flow ports; and deploying the ICD assembly into a wellbore after manipulating the plug. 14. The method of claim 13 , further comprising removing a sleeve mechanically coupled to the base pipe and radially offset from the ICD. 15. The method of claim 14 , wherein removing the sleeve comprises at least one of removing one or more mechanical fasteners and unthreading the sleeve from its mechanical connection with the base pipe. 16. The method of claim 15 , further comprising: re-coupling the sleeve to the base pipe; placing a spacer member between the top plate and the sleeve; and urging the top plate into engagement with the bottom plate with the spacer member when the sleeve is coupled to base pipe. 17. The method of claim 14 , wherein the plug includes a head and a stem extending longitudinally from the head, and wherein manipulating the plug comprises: extending the plug through a hole defined in the top plate; and extending the stem into the outlet to substantially occlude the one of the one or more flow ports. 18. The method of claim 14 , wherein manipulating the plug comprises at least one of threading the plug into the at least one fluid inlet or the outlet, press-fitting the plug into the at least one fluid inlet or the outlet, bonding the plug in the at least one fluid inlet or the outlet, and shrink-fitting the plug into the at least one fluid inlet or the outlet. 19. The method of claim 14 , wherein the plug is a window arranged in the at least one fluid inlet, and wherein manipulating the plug comprises breaking the window on-site to allow fluids to pass through the ICD. 20. The method of claim 14 , wherein manipulating the plug while on-site comprises: extending the plug into the interior of the base pipe from an end of the base pipe and to the one of the one or more flow ports; and installing the plug in the outlet via the interior of the base pipe and the one of the one or more flow ports. 21. The method of claim 20 , wherein the plug defines a flow conduit therethrough, the method further comprising flowing a fluid through the flow conduit, the flow conduit fluidly communicating with the interior of the base pipe and exhibiting a diameter corresponding to a predetermined flow rate of the fluid. 22. The method of claim 20 , further comprising threading a lock nut into the one of the one or more flow ports and thereby securing the plug in the outlet.