ROTATING PRESSURE REDUCTION TURBINE WITH COG WHEELS FOR A WELL STREAM HAVING A HYDRAULIC POWER TRANSMISSION FOR OPERATION OF AN ELECTRICITY GENERATOR
First Claim
1. A rotating pressure reduction turbine for a hydro carbon well stream, the pressure reduction turbine being arranged for driving a hydraulic pump which via a hydraulic distribution system is connected to a hydraulic motor and is arranged for providing the motor with a drive medium for driving of a connected electric generator, a first and a second cog wheel meshing with each other being supported across a flow direction in a turbine housing provided with an inlet and an outlet, and a flow plate being arranged at the inlet and arranged for splitting the well stream and for directing a first and a second part stream toward the outsides of the first and a second cog wheel wherein:
- the hydraulic pump via a turbine shaft is rotationally rigidly connected to one of the first and a second cog wheel,the turbine shaft is supported in two journal bearings and is enclosed by an arrangement arranged for dynamic shaft sealing by injection of a sealing liquid, alternatively that the dynamic shaft seal arrangement is replaced by a magnet coupling arranged to be able to transfer the torque from the turbine to the hydraulic pump, andthe electric generator and the connected hydraulic motor in a surface implementation is positioned in an overpressure container, or that the electrical power generator in an underwater implementation is connected to the hydraulic motor via a magnet coupling.
1 Assignment
0 Petitions
Accused Products
Abstract
A pressure reduction turbine for a hydrocarbon well stream driving a hydraulic pump, and the turbine has two cog wheels mounted laterally to a well stream. A deflector plate is positioned at the well inlet to split and direct the well stream towards the outsides of the cogwheels and to drive them with opposite rotation. The turbine is designed to give a large pressure drop. Ceramics is used in the turbine housing, in the turbine inlet and in the turbine outlet, to withstand erosion wear. A hydraulic pump is supplied with collective torque via the turbine shaft, supported by two journal bearings and is connected to the pump via a dynamic sealing arrangement. Alternatively the torque from the turbine may be transmitted by to the pump without the dynamic seal, via a magnet coupling. In an underwater implementation the turbine with the pump are equipped with an arrangement for connection or disconnection via an underwater tool system, so that the equipment may be pulled and installed from a surface vessel. The hydraulic pump leads hydraulic oil at high pressure out into a piping system where hydraulic energy, possibly from several such power sources, is led to a common hydraulic motor driving an electric generator. In a surface implementation the generator is positioned in a non-explosive environment, for example in an overpressure container.
48 Citations
2 Claims
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1. A rotating pressure reduction turbine for a hydro carbon well stream, the pressure reduction turbine being arranged for driving a hydraulic pump which via a hydraulic distribution system is connected to a hydraulic motor and is arranged for providing the motor with a drive medium for driving of a connected electric generator, a first and a second cog wheel meshing with each other being supported across a flow direction in a turbine housing provided with an inlet and an outlet, and a flow plate being arranged at the inlet and arranged for splitting the well stream and for directing a first and a second part stream toward the outsides of the first and a second cog wheel wherein:
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the hydraulic pump via a turbine shaft is rotationally rigidly connected to one of the first and a second cog wheel, the turbine shaft is supported in two journal bearings and is enclosed by an arrangement arranged for dynamic shaft sealing by injection of a sealing liquid, alternatively that the dynamic shaft seal arrangement is replaced by a magnet coupling arranged to be able to transfer the torque from the turbine to the hydraulic pump, and the electric generator and the connected hydraulic motor in a surface implementation is positioned in an overpressure container, or that the electrical power generator in an underwater implementation is connected to the hydraulic motor via a magnet coupling. - View Dependent Claims (2)
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Specification