An apparatus for installation to a subsea equipment mandrel or hub, including a body having a cylindrical sidewall defining one or more receptacles and a locking system to couple the body to the mandrel or hub. The locking system may include one or more locking assemblies received within a respective receptacle and coupled to the cylindrical sidewall. Each locking assembly may include a locking body, a locking collar, an annular seal, an actuator, and a locking pin. The annular seal may be seated within an annular groove and configured to engage the shoulder of a receptacle in a sealing relationship, and the locking collar may couple the locking body to the cylindrical sidewall. The actuator may be adjustably coupled to the locking body and configured to move radially. A locking pin may be configured to selectively engage the angled shoulder surface of the mandrel or hub.

A system for use in corrosive environments includes a first tubular including a first connector portion, and a second tubular including a second connector portion. The first connector portion overlaps the second connector portion to form a connection joint. A magnesium element is arranged between the first connector portion and the second connector portion at the connection joint.

There is provided a system and method for using a thermal insulating paint in a subsea environment. In accordance with one embodiment of the present technique, the thermal insulating paint may be applied to a casing for use in a subsea mineral extraction system. In another embodiment, a surface-rated thermal insulating paint may be applied to any component for use in a subsea mineral extraction system. The insulated component may be protected from the subsea environment to prevent damage to the surface-rated thermal insulating paint. For example, protecting the component may include burying it in cement or concrete, encasing it in another subsea structure or enclosure, or applying a protective sealant over the surface-rated thermal insulating paint.

There is provided a system and method for using a thermal insulating paint in a subsea environment. In accordance with one embodiment of the present technique, the thermal insulating paint may be applied to a casing for use in a subsea mineral extraction system. In another embodiment, a surface-rated thermal insulating paint may be applied to any component for use in a subsea mineral extraction system. The insulated component may be protected from the subsea environment to prevent damage to the surface-rated thermal insulating paint. For example, protecting the component may include burying it in cement or concrete, encasing it in another subsea structure or enclosure, or applying a protective sealant over the surface-rated thermal insulating paint.