A towing assembly comprising a towing and handling device intended to tow a faired elongate element, the towing device comprises a winch allowing the faired elongate element to be wound in and paid out through a guide device that allows the elongate element to be guided, the guide device comprising a first groove the bottom of which is formed by the bottom of the groove of a pulley, the first groove being delimited by a first surface having a profile that is concave in a radial plane of the pulley, the width of the first groove and the curvature of the profile of the first curved surface in the radial plane being determined in such a way as to allow the fairing element, under the effect of the rotation of the fairing element about the axis of the elongate element under the effect of the traction of the elongate element with respect to the guide device along the longitudinal axis thereof, to flip from a turned-over position in which the fairing element is oriented with its trailing edge toward the bottom of the first groove into an acceptable position in which it is oriented with the leading edge toward the bottom of the first groove.

Seismic source element modules can each include a seismic source element. Spacer modules can each have a hydrofoil shape. A first end of the spacer modules can be coupled to a respective first one of the seismic source element modules. A second end of the spacer modules can be coupled to a respective second one of the seismic source element modules. The source element modules and the spacer modules can collectively form a rigid structure.

An apparatus for acquiring survey data including streamer equipment comprising a lead-in cable; and a geophysical streamer with a plurality of geophysical sensors distributed along the geophysical streamer, including a forward geophysical sensor; a depressor coupled to the streamer equipment in front of the forward geophysical sensor; a variable tension control device coupled at a back end of the geophysical streamer; and a plurality of tension control system sensors. A method for acquiring survey data including obtaining data from tension control system sensors of a geophysical streamer system; identifying an adjustment to be made to one or more tension control factors of the geophysical streamer system to reduce or control vibrational behavior of streamer equipment of the geophysical streamer system making the adjustment to the one or more tension control factors; and acquiring survey data with the geophysical streamer system.

A tow body arrangement for a towable device in a sonar system includes a bridle having a front for connecting to a first tow cable and back for connecting to a second tow cable. The tow body arrangement also includes a tow body rotatably connected to the bridle between the front and back of the bridle. The tow body is shaped to generate hydrodynamic forces tending to rotate the tow body perpendicular to a longitudinal axis of the bridle.

A fairing intended to fair an elongate object intended to be at least partially immersed, the fairing comprises a plurality of fairing portions, each fairing portion comprising a plurality of fairing elements, the fairing elements comprising a canal intended to accept the elongate object and being profiled in such a way as to reduce the hydrodynamic drag of the at least partially immersed elongate object, the fairing elements being intended to be pivot-mounted on the elongate element around the longitudinal axis of the canal, the fairing elements being joined together along the axis of the canal and articulated to one another, the portions of fairing rotating freely about the canal relative to one another.

A fairing element to fair an elongate element comprising a canal to accept the elongate object and being profiled in such a way as to reduce the hydrodynamic drag of the elongate object when the elongate object is at least partially immersed, the fairing element comprises a leading edge and a trailing edge, the fairing element being intended to be pivot-mounted on the elongate element around the longitudinal axis of the canal, the fairing element comprising a bearing edge comprising a first bearing edge which is mitered with respect to the leading edge, the first bearing edge being arranged in such a way that the distance between the leading edge and the bearing edge, considered perpendicular to the leading edge, decreases continuously, along an axis parallel to the leading edge, from a first end of the first bearing edge to a second end of the bearing edge, the fairing element being referred to as a mitered fairing element, the mitered fairing element comprising a first part and a second part which are joined together along a first bearing edge so that the fairing element can pass from a deployed configuration in which the trailing edge is parallel to the leading edge to a folded configuration in which the fairing element is folded along the first bearing edge.

A towing assembly comprising a towing and handling device intended to tow a faired elongate element, the towing device comprises a winch allowing the faired elongate element to be wound in and paid out through a guide device that allows the elongate element to be guided, the guide device comprising a first groove the bottom of which is formed by the bottom of the groove of a pulley, the first groove being delimited by a first surface having a profile that is concave in a radial plane of the pulley, the width of the first groove and the curvature of the profile of the first curved surface in the radial plane being determined in such a way as to allow the fairing element, under the effect of the rotation of the fairing element about the axis of the elongate element under the effect of the traction of the elongate element with respect to the guide device along the longitudinal axis thereof, to flip from a turned-over position in which the fairing element is oriented with its trailing edge toward the bottom of the first groove into an acceptable position in which it is oriented with the leading edge toward the bottom of the first groove.

A system can include a float, a winch, a line, and a collapsible fairing. The winch can be coupled to the float. The line can be associated with the winch, where the winch is configured to extend and retract the line. The collapsible fairing can surround the line. Extension and retraction of the line can cause the collapsible fairing to extend and collapse.

The present invention relates to a tether for connecting a moving device submerged in liquid to a support structure, e.g. a submersible power plant comprising a stream-driven vehicle provided with at least one turbine for generation of electrical energy. The tether extends in a main direction, and at least a tether portion of the tether comprises a tensile force bearing portion extending in the main direction of the tether, wherein the tether portion is arranged to strive to self-align in relation to a relative flow direction of the liquid during use.

A fairing (1) for improving fluid flow around a circular-cylindrical object comprises a first fairing-element (11) and a second fairing-element (12), which are releasable relative to one another. The fairing-elements are easy to manufacture, compactly stackable, and easy to install around the object. In installed condition, the first fairing-element and the second fairing-element are mutually connected in circumferential direction of the fairing, while forming a twin-fin fairing, which reduces vortex-induced vibrations around the object, while providing favourable flow resistance, and without performing galloping motions.