Non-pressure sensitive module for liner hanger installation

What is claimed is: 1 . A non-pressure sensitive (“NPS”) module for use with a liner hanger installable within a borehole via a run-in tool, the NPS module comprising: a mandrel positionable around a slick joint of the run-in tool and having one or more fluid pathways that balance pressure uphole of the mandrel and downhole of the mandrel when the NPS module is positioned within the borehole; a lug assembly positionable around the slick joint and extending at least partially through the mandrel, a lug of the lug assembly extendable through a port in the liner hanger to prevent setting of the liner hanger when the lug assembly is in a run-in position; a release sleeve positionable around the slick joint and coupled to the lug assembly, the release sleeve operable to shift the lug assembly from a run-in position to an intermediate position, the intermediate position allowing the liner hanger to be set; and a retention mechanism operable to prevent the lug assembly from shifting from the intermediate position to a retracted position until run-in tool is pulled uphole. 2 . The NPS module of claim 1 , wherein the retention mechanism comprises: a retainer engaged with at least one of the release sleeve or the lug assembly to prevent the lug assembly from shifting from the intermediate position to the retracted position; and a closure sleeve operable to disengage the retainer when run-in tool is pulled uphole. 3 . The NPS module of claim 2 , wherein the closure sleeve is engageable with the slick joint to close a port of the slick joint when run-in tool is pulled uphole. 4 . The NPS module of claim 2 , wherein the retainer is a collet that engages with the lug assembly to prevent the lug assembly from shifting from the intermediate position to the retracted position. 5 . The NPS module of claim 2 , wherein a spring biases the retainer into engagement with the release sleeve to prevent the lug assembly from shifting from the intermediate position to the retracted position. 6 . The NPS module of claim 1 , wherein the release sleeve shifts the lug assembly in response to a pressure differential between a bore of the slick joint and an annulus between the slick joint and a mandrel of the liner hanger. 7 . The NPS module of claim 1 , wherein the lug assembly is engageable with a hydraulic cylinder of the liner hanger to prevent setting of the liner hanger when the lug assembly is in a run-in position. 8 . A liner hanger system for use in a borehole, the liner hanger system comprising: a liner hanger; a run-in tool comprising a slick joint; and a non-pressure sensitive (“NPS”) module comprising: a mandrel positioned around the slick joint and having one or more fluid pathways that balance pressure uphole of the mandrel and downhole of the mandrel when the NPS module is positioned within the borehole; a lug assembly positioned around the slick joint and extending at least partially through the mandrel, a lug of the lug assembly extendable through a port in the liner hanger to prevent setting of the liner hanger when the lug assembly is in a run-in position; a release sleeve positioned around the slick joint and coupled to the lug assembly, the release sleeve operable to shift the lug assembly from a run-in position to an intermediate position, the intermediate position allowing the liner hanger to be set; and a retention mechanism operable to prevent the lug assembly from shifting from the intermediate position to a retracted position until run-in tool is pulled uphole. 9 . The liner hanger system of claim 8 , wherein the retention mechanism comprises: a retainer engaged with at least one of the release sleeve or the lug assembly to prevent the lug assembly from shifting from the intermediate position to the retracted position; and a closure sleeve operable to disengage the retainer when run-in tool is pulled uphole. 10 . The liner hanger system of claim 9 , wherein the closure sleeve is engageable with the slick joint to close a port of the slick joint when run-in tool is pulled uphole. 11 . The liner hanger system of claim 9 , wherein the retainer is a collet that engages with the lug assembly to prevent the lug assembly from shifting from the intermediate position to the retracted position. 12 . The liner hanger system of claim 9 , wherein a spring biases the retainer into engagement with the release sleeve to prevent the lug assembly from shifting from the intermediate position to the retracted position. 13 . The liner hanger system of claim 8 , wherein: the liner hanger comprises a liner hanger mandrel; and the release sleeve shifts the lug assembly in response to a pressure differential between a bore of the slick joint and an annulus between the slick joint and the liner hanger mandrel. 14 . The liner hanger system of claim 8 , wherein: the liner hanger comprises: a liner hanger mandrel having a port; and a hydraulic cylinder; and the lug extends through the port and engages with the hydraulic cylinder to prevent setting of the liner hanger when the lug assembly is in a run-in position. 15 . The liner hanger system of claim 14 , wherein hydraulic pressure is applied to the hydraulic cylinder via the port to shift the hydraulic cylinder and set the liner hanger when the lug assembly is shifted to the intermediate position or the retracted position. 16 . A method of positioning a liner hanger within a well, the method comprising: running a liner hanger into the well via a run-in tool comprising a slick joint; positioning a lug assembly of a non-pressure sensitive (“NPS”) module in a run-in position that prevents the liner hanger from setting; creating a pressure differential between a bore of the slick joint and an annulus between the slick joint and a liner hanger mandrel of the liner hanger to shift a release sleeve of the NPS module positioned around the slick joint; shifting the lug assembly of the NPS module from the run-in position to an intermediate position via the release sleeve to allow the liner hanger to be set; and setting the liner hanger. 17 . The method of claim 16 , further comprising pulling the run-in tool uphole to a first position to release a retention mechanism of the NPS module that prevents the lug assembly from shifting from the intermediate position to a retracted position. 18 . The method of claim 17 , wherein releasing the retention mechanism comprises disengaging a retainer of the retention mechanism from at least one of the release sleeve or the lug assembly. 19 . The method of claim 18 , further comprising pulling the run-in tool uphole beyond the first position to shift the lug assembly to a retracted position and engage a closure sleeve of the retention mechanism with the slick joint to close a port of the slick joint. 20 . The method of claim 18 , wherein: positioning a lug assembly of an NPS module in a run-in position comprises extending a lug of the lug assembly through a port of the liner hanger mandrel to engage with a hydraulic cylinder of the liner hanger; and setting the liner hanger comprises applying hydraulic pressure via the port to shift the hydraulic cylinder and set the liner hanger.