Pressure retention manifold for sand control screens

What is claimed is: 1. A screen assembly, comprising: a base pipe forming: a first interior passageway defined by an internal surface of the base pipe; and a first plurality of passageways extending between an external surface of the base pipe and the internal surface of the base pipe, wherein the first plurality of passageways are spaced across a first portion of the base pipe; a tubular that is concentrically disposed about the first portion of the base pipe, wherein the tubular forms a second plurality of passageways extending between an external surface of the tubular and the internal surface of the tubular; and a housing concentrically disposed about the tubular and the base pipe to form a chamber between the external surface of the tubular and an internal surface of the housing, wherein the chamber is in fluid communication with a screen jacket exit; wherein the screen assembly has a first configuration and a second configuration; wherein, when in the first configuration, the screen assembly further comprises a plurality of plugs and wherein a plug from the plurality of plugs is accommodated within a corresponding passageway of the second plurality of passageways to fluidically isolate the external surface of the tubular from the first interior passageway of the base pipe; wherein, when in the second configuration, the screen jacket exit is in fluid communication with the first interior passageway of the base pipe via the chamber, the first plurality of passageways, and the second plurality of passageways; and wherein at least a portion of the plurality of plugs are dissolvable plugs. 2. The screen assembly of claim 1 , wherein in the first configuration, the screen assembly is deployed in a wellbore and the screen assembly is configured to maintain a pressure within the first interior passageway. 3. The screen assembly of claim 1 , further comprising a screen jacket that forms the screen jacket exit, wherein the screen jacket is concentrically disposed about a second portion of the base pipe that is a solid-walled portion of the base pipe. 4. The screen assembly of claim 1 , wherein the internal surface of the tubular forms a recessed annular chamber within a wall of the tubular, and wherein the annular chamber is aligned with at least one of the passageways in the first plurality of passageways and with at least one of the passageways of the second plurality of passageways. 5. The screen assembly of claim 1 , wherein the first plurality of passageways are circumferentially spaced and longitudinally spaced along the base pipe within the first portion of the base pipe. 6. The screen assembly of claim 1 , wherein the second plurality of passageways has a tapered shape in a cross-section view of the tubular. 7. The screen assembly of claim 1 , wherein at least one plug from the plurality of plugs threadably engages at least one passageway of the second plurality of passageways. 8. The screen assembly of claim 1 , wherein the housing is directly coupled to the tubular via threads. 9. A method, comprising: positioning a bottom hole assembly within a wellbore of a well to define an annulus between an external surface of the bottom hole assembly and an internal surface of the wellbore, wherein the bottom hole assembly comprises: a base pipe forming: a first interior passageway defined by an internal surface of the base pipe; and a first plurality of passageways extending between an external surface of the base pipe and the internal surface of the base pipe, wherein the first plurality of passageways are spaced across a first portion of the base pipe; a tubular that is concentrically disposed about the first portion of the base pipe, wherein the tubular forms a second plurality of passageways extending between an external surface of the tubular and the internal surface of the tubular; a housing concentrically disposed about the tubular and the base pipe to form a chamber between the external surface of the tubular and an internal surface of the housing, wherein the chamber is in fluid communication with a screen jacket exit; and a plurality of plugs, wherein a plug from the plurality of plugs is accommodated within a corresponding passageway of the second plurality of passageways to fluidically isolate the external surface of the tubular from the first interior passageway of the base pipe; pressurizing, while the plurality of plugs is accommodated within the second plurality of passageways, the first interior passageway of the base pipe to a minimum pressure; and dissolving at least a portion of the plurality of plugs to place the annulus in fluid communication with the first interior passageway. 10. The method of claim 9 , wherein the bottom hole assembly further comprises a packer in fluid communication with the first interior passageway, wherein pressurizing, while the plurality of plugs is accommodated within the second plurality of passageways, to the minimum pressure results in setting the packer relative the wellbore. 11. The method of claim 10 , further comprising, prior to positioning the bottom hole assembly in the wellbore, removing the housing from the bottom hole assembly and positioning one or more of the plurality of plugs within the second plurality of passageways. 12. The method of claim 11 , wherein positioning the one or more of the plurality of plugs in the second plurality of passageways comprises threadably engaging the one or more of the plurality of plugs into at least one passageway of the second plurality of passageways. 13. The method of claim 9 , further comprising receiving a fluid in the first interior passageway from the screen jacket exit via the first plurality of passageways and the second plurality of passageways. 14. The method of claim 13 , wherein the internal surface of the tubular forms a recessed annular chamber within a wall of the tubular, wherein the annular chamber is aligned with at least one of the passageways in the first plurality of passageways and is aligned with at least one of the passageways of the second plurality of passageways; and wherein receiving the fluid in the first interior passageway from the screen jacket exit is also via the annular chamber. 15. The method of claim 9 , wherein the first plurality of passageways are circumferentially spaced and longitudinally spaced along the base pipe within the first portion of the base pipe. 16. The method of claim 9 , wherein the second plurality of passageways has a tapered shape in a cross-section view of the tubular. 17. The method of claim 9 , wherein at least the portion of the plurality of plugs are dissolvable plugs. 18. The method of claim 9 , further comprising a formation fluid passing through a screen jacket towards the screen jacket exit to filter the formation fluid. 19. The method of claim 18 , wherein positioning the bottom hole assembly within the wellbore while the external surface of the tubular is fluidically isolated from the first interior passageway of the base pipe prevents debris from a downhole fluid from entering the screen jacket and the second plurality of passageways. 20. The method of claim 9 , wherein the housing is directly coupled to the tubular via threads.