A wire protection pipe through which a wire is to be passed and that is configured to be attached to a vehicle body, the wire protection pipe including: an underfloor configured to be arranged under a floor of the vehicle body; and a flat portion that is provided in the underfloor, the flat portion having a flat shape in a cross section that intersects an axial direction, as a result of a recess being provided on an upper side or a lower side in a state of the under floor being attached to the vehicle body.

A wire protection pipe through which a wire is to be passed and that is configured to be attached to a vehicle body, the wire protection pipe including: an underfloor configured to be arranged under a floor of the vehicle body; and a flat portion that is provided in the underfloor, the flat portion having a flat shape in a cross section that intersects an axial direction, as a result of a recess being provided on an upper side or a lower side in a state of the under floor being attached to the vehicle body.

An offshore system including: a dynamic submarine power cable, a bend stiffener having a lower end and a top end, the bend stiffener having a central channel extending from the lower end to the top end, the central channel receiving the dynamic submarine power cable with a radial spacing between an inner surface of the central channel and an outer surface of the dynamic submarine power cable along the length of the dynamic submarine power cable arranged in the bend stiffener, the radial spacing forming a longitudinal channel between the bend stiffener and the dynamic submarine power cable, and a fluid flow device configured to generate a fluid flow inside the longitudinal channel.

An offshore system including: a dynamic submarine power cable, a bend stiffener having a lower end and a top end, the bend stiffener having a central channel extending from the lower end to the top end, the central channel receiving the dynamic submarine power cable with a radial spacing between an inner surface of the central channel and an outer surface of the dynamic submarine power cable along the length of the dynamic submarine power cable arranged in the bend stiffener, the radial spacing forming a longitudinal channel between the bend stiffener and the dynamic submarine power cable, and a fluid flow device configured to generate a fluid flow inside the longitudinal channel.

Submersible transducer includes a transducer housing configured to be submerged within an aqueous liquid and a pressure sensor operable to obtain data for determining a pressure of the aqueous liquid. The pressure sensor may be disposed within the transducer housing. The submersible transducer also includes a submersible cable having an electrical conductor and a venting tube operably coupled to the pressure sensor. The pressure sensor uses an atmospheric pressure of an external environment that is detected through the venting tube to determine the pressure of the aqueous liquid. The submersible cable also includes a cable jacket and an inner layer that is surrounded by the cable jacket. The inner layer surrounds the electrical conductor and the venting tube. The inner layer includes a non-hygroscopic polymer that is more resistant to absorbing the aqueous liquid than the cable jacket.

Submersible transducer includes a transducer housing configured to be submerged within an aqueous liquid and a pressure sensor operable to obtain data for determining a pressure of the aqueous liquid. The pressure sensor may be disposed within the transducer housing. The submersible transducer also includes a submersible cable having an electrical conductor and a venting tube operably coupled to the pressure sensor. The pressure sensor uses an atmospheric pressure of an external environment that is detected through the venting tube to determine the pressure of the aqueous liquid. The submersible cable also includes a cable jacket and an inner layer that is surrounded by the cable jacket. The inner layer surrounds the electrical conductor and the venting tube. The inner layer includes a non-hygroscopic polymer that is more resistant to absorbing the aqueous liquid than the cable jacket.

Coated conductors include a conductor and a peelable polymeric coating at least partially surrounding the conductor, where the peelable polymeric coating includes from 1 to 8 microcapillaries that define individual, discrete void spaces. Also included herein are methods for making such coated conductors.

Coated conductors include a conductor and a peelable polymeric coating at least partially surrounding the conductor, where the peelable polymeric coating includes from 1 to 8 microcapillaries that define individual, discrete void spaces. Also included herein are methods for making such coated conductors.

A flexible electrical cable is provided that extends in a longitudinal direction and contains a conductive core, with a reinforcing layer for limiting a bending radius mounted around the conductive core. The reinforcing layer is formed from at least one strand wound around the conductive core, which has winding sections with support surfaces. The support surfaces of adjacent winding sections are supported on each other to limit a bending radius.

A flexible electrical cable is provided that extends in a longitudinal direction and contains a conductive core, with a reinforcing layer for limiting a bending radius mounted around the conductive core. The reinforcing layer is formed from at least one strand wound around the conductive core, which has winding sections with support surfaces. The support surfaces of adjacent winding sections are supported on each other to limit a bending radius.