Abstract: It is described a switching device comprising a semiconductor switching unit; a contactor electrically coupled in series with the semiconductor switching unit; and a controller being configured for activating an electrically isolating state of the switching device and/or activating an electrically conducting state of the switching device based on a command signal or based on a comparison of a measured value and predetermined activation condition.

Abstract: A subsea container electrical through connector for providing an electrical connection from an interior of a subsea container to an exterior of the subsea container is disclosed, wherein the connector extends partially into or fully through a hole in a subsea container. The connector comprises a conductive bolt having a conical bolt portion with an outer diameter increasing in a longitudinal direction. Further, the connector comprises an electrical insulator having a conical insulator portion with an inner surface, facing the conical bolt portion of the bolt, and an outer surface having an outer diameter which increases in the longitudinal direction.

Abstract: A device comprising an electrically conductive surface portion is provided for immersion in an electrically conductive liquid such as water. At least one load electrode is provided for supplying an electric load current into the electrically conductive liquid. Further, an electrode, e.g., one or more of the at least one load electrode acts as protection electrode. A protection current source, e.g., a resistor, is electrically coupled to the conductive surface portion and to the protection electrode for providing a protection current flowing between the electrically conductive surface portion and the electrode. Further, the protection current source is adapted for changing the protection current in response to a change in the load current.

Abstract: A power switching assembly for switching power in a power distribution bus, and a power distribution system including such a power switching assembly, are disclosed. The power switching assembly includes a first terminal, a second terminal, a first semiconductor element and a second semiconductor element electrically coupled between the first terminal and the second terminal to provide controllability of a current flow from the first terminal to the second terminal and from the second terminal to the first terminal A controller for controlling the semiconductor elements may be configured to implement one or more of various control schemes such as a breaker, a current limiter, a load balancer, and a precharging device.

Abstract: A subsea electrical power transmission system may include a rectifier located at the source of the energy feeding a subsea DC power transmission path, e.g. a transmission cable with DC power. The voltage level can be adjusted to the actual installation and may typically be 100 kV. To reduce the voltage at the destination a step down chopper is used in one embodiment. This may reduce the voltage to a suitable input voltage for a VSD-inverters (VSD: variable speed drive) feeding electrical consumers such as motors.

Abstract: A capacitor (1) for application in high pressure environments has at least two electrodes (2.1, 2.2) and at least one electrically insulating film (5) forming a dielectric between the electrodes (2.1, 2.2), each electrode (2.1, 2.2) having at least one metallic foil (3.1, 3.2) or at least one metallic layer on the electrically insulating film (5), wherein the capacitor (1) is unencapsulated and designed to allow a surrounding liquid to fill cavities of the capacitor (1). Furthermore, an electric device has at least one such capacitor (1) in a device housing, whereby the device housing is filled with an electrically insulating liquid.

Abstract: The disclosure relates to an onboard floating drilling installation and to a method for operating an onboard floating drilling installation, comprising a draw-works for reeling out and reeling in a drilling line, comprising several thrusters for dynamic positioning the onboard floating drilling installation and comprising at least one generator to operate the thrusters and the draw works.

Abstract: An electronic component (2) for application in high pressure environments has a casing (4) entirely filled with an electrically insulating first fluid (F1), whereby the casing (4) exhibits or connects to a volume compensation unit for compensating a volume change of the first fluid (F1). An electric device (1) has at least one such electronic component (2) in a device housing (10), whereby the device housing (10) is filled with a second fluid (F2).

Abstract: The proposed system has a plurality of generator systems, each generator system having an alternating current generator directly connected to a rectifier. The alternating current generator is rotationally coupled to a prime mover, wherein, upon operation of the prime mover, the alternating current generator produces an alternating current output , is de-synchronized to further ones of the plurality of generator systems and has a variable generator speed. The rectifier directly connected the alternating current generator is adapted to convert the alternating current output of the alternating current generator into a direct current output. A direct current distribution bus is coupled to the direct current outputs from each of the rectifiers. The system further has a plurality of inverters adapted to receive power from the direct current distribution bus, the output of each inverter being adapted to drive an alternating current motor.

Abstract: A capacitor (1) for application in high pressure environments has at least two electrodes (2.1, 2.2) and at least one electrically insulating film (5) forming a dielectric between the electrodes (2.1, 2.2), each electrode (2.1, 2.2) having at least one metallic foil (3.1, 3.2) or at least one metallic layer on the electrically insulating film (5), wherein the capacitor (1) is unencapsulated and designed to allow a surrounding liquid to fill cavities of the capacitor (1). Furthermore, an electric device has at least one such capacitor (1) in a device housing, whereby the device housing is filled with an electrically insulating liquid.

Abstract: In an energy generating system for generating electrical energy at a seabed, the energy generating system has a canister arranged at the seabed, whereby in the canister at least one electrothermal converter is in contact with a cooling surface and a heating surface, whereby the cooling surface is cooled by the circumjacent seawater, a pipeline with a pump for feeding a hot medium out of a drilling well in the seabed to heat up the heating surface, and a power output in the canister for the electrical energy generated by the at least one electrothermal converter. Furthermore, a method for generating electrical energy at a seabed provides underwater installations with electrical energy, where such an energy generating system is used.

Abstract: Variable Speed Drive (1) for subsea installations (20), subsea vessels or subsea vehicles, as well as to a corresponding subsea installation (20), subsea vessel or subsea vehicle, has an alternating current/alternating current converter (2) having a current-controlled capacitor-less direct current link (7).

Abstract: A nozzle (100) for air-assisted atomizing of a liquid fuel comprises a fuel feed passage (110) and an air feed passage (114) and a swirling chamber (118) from which fuel and air may be passed to an exit orifice (126) for emerging a cone shaped spray. An air bypass passage (122) is provided for leading a fraction of the air flow in the air feed passage (114) past the swirling chamber (118) and to an air exit (124) arranged such with respect to the exit orifice (126) that, during operation of the nozzle, air emerging through the air exit (124) reduces depositing of residues of fuel on a downstream surface (130, 132, 136) of the nozzle element (108). Grooves or other flow-guiding elements may confer swirling or rotation of air in or downstream of the air feed passage (114) and/or the air bypass passage (122).