Filtered fuel gas for pressurized fluid engine systems
First Claim
1. In a natural gas driven fluid pressure engine system, the improvement comprising in combination:
- a source of raw natural gas under pressure at the wellhead, a fluid pressure engine, means for conveying the natural gas for fuel to the engine through a designated flow path, and a rotary dynamic turbine type centrifugal separator in the designated flow path for separating contaminants from the natural gas rotated by the flow of the gas, said separator being characterized by;
a rotor shaft with a vertically disposed axis, a set of spaced generally vertically disposed rotor blades generally radially extending outwardly from the rotor shaft and disposed at an acute angle from the vertically disposed rotor axis in a generally cylindrical configuration, the blades thereby comprising ramp means for intercepting contaminants from the natural gas flow to direct them downwardly, a raw natural gas input port disposed at a lower cylindrical configuration location, and a decontaminated natural gas output port disposed at an upper cylindrical configuration location and spaced circumferentially about the cylindrical configuration in the direction of rotation to produce an upward spiral flow of the gas from the input port to the output port through the separator when the rotor is rotating.
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Abstract
This invention provides for reliable, long-life operation of fluid pressure responsive engines directly from raw natural gas at the wellhead by introducing a novel rotary dynamic contaminant filter system especially adapted for removing liquid and abrasive particle contaminants from the flow of natural gas under high pressure from the wellhead. Thus, a novel turbine type gas driven rotor in the gas flow stream has rotor blades slanted at an angle to the rotation axis to serve as a ramp for removal of contaminants as the flow of gas spirals upwardly from input to output ports. This dynamic filter employs the combined forces of gravity, centrifugal force and those imposed by interception with a contaminant flow ramp to encounter and remove a wide range of microscopic contaminants from the high pressure wellhead natural gas.
123 Citations
6 Claims
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1. In a natural gas driven fluid pressure engine system, the improvement comprising in combination:
- a source of raw natural gas under pressure at the wellhead, a fluid pressure engine, means for conveying the natural gas for fuel to the engine through a designated flow path, and a rotary dynamic turbine type centrifugal separator in the designated flow path for separating contaminants from the natural gas rotated by the flow of the gas, said separator being characterized by;
a rotor shaft with a vertically disposed axis, a set of spaced generally vertically disposed rotor blades generally radially extending outwardly from the rotor shaft and disposed at an acute angle from the vertically disposed rotor axis in a generally cylindrical configuration, the blades thereby comprising ramp means for intercepting contaminants from the natural gas flow to direct them downwardly, a raw natural gas input port disposed at a lower cylindrical configuration location, and a decontaminated natural gas output port disposed at an upper cylindrical configuration location and spaced circumferentially about the cylindrical configuration in the direction of rotation to produce an upward spiral flow of the gas from the input port to the output port through the separator when the rotor is rotating. - View Dependent Claims (2, 3)
- a source of raw natural gas under pressure at the wellhead, a fluid pressure engine, means for conveying the natural gas for fuel to the engine through a designated flow path, and a rotary dynamic turbine type centrifugal separator in the designated flow path for separating contaminants from the natural gas rotated by the flow of the gas, said separator being characterized by;
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4. A dynamic rotary decontamination filter for processing a raw natural gas flow stream under pressure at a wellhead site to remove liquid and abrasive contaminants carried in the flow stream, comprising in combination:
- a rotor shaft with a vertically disposed axis, a set of spaced generally vertically disposed rotor blades generally radially extending outwardly from the rotor shaft;
said blades being disposed at an acute angle from the vertically disposed rotor axis in a generally cylindrical rotor cage configuration thereby comprising ramp means for intercepting contaminants from the natural gas flow to direct them downwardly;
a raw natural gas input port disposed at a lower cylindrical configuration location; and
a decontaminated natural gas output port disposed at an upper cylindrical configuration location and spaced circumferentially about the cylindrical configuration in the direction of rotor travel to produce during rotation of the rotor cage an upward spiral flow of the gas from the input port to the output port through the separator. - View Dependent Claims (5, 6)
- a rotor shaft with a vertically disposed axis, a set of spaced generally vertically disposed rotor blades generally radially extending outwardly from the rotor shaft;
Specification