The invention relates to a wet gas compression system comprising a compact flow conditioner (21), intended to be placed below sea level in close vicinity to a well head or on a dry installation, said flow conditioner (21) being intended to receive a multi-phase flow through a supply pipe (11) from a
The invention relates to a wet gas compression system comprising a compact flow conditioner (21), intended to be placed below sea level in close vicinity to a well head or on a dry installation, said flow conditioner (21) being intended to receive a multi-phase flow through a supply pipe (11) from a sub sea well for further transport of such hydrocarbons to a multi-phase receiving plant, and where preferably avoid sand accumulation or remove as much sand as possible from the multi-phase flow, the gas (G) and the liquid (L) being separated in the flow conditioner (21) whereupon the separated gas (G) and liquid (L) are re-assembled and enters a multi-phase meter (46) prior to boosting by means of a compressor (22). In the combined multi-phase pump and compressor unit (22), as an integrated unit, comprises a combined multi-phase pump and compressor unit (22) functioning on the centrifugal principle, used for trans-porting liquid and gas from a flow conditioner (21) to a remote multi-phase receiving plant.
대표청구항▼
1. A gas compression system for handling large volumes of hydrocarbon gas in a sub sea well flow and accompanying smaller volumes of a hydrocarbon liquid, the gas compression system comprising: a compact flow conditioner in form of a tank, intended to be placed below sea level in close vicinity to a
1. A gas compression system for handling large volumes of hydrocarbon gas in a sub sea well flow and accompanying smaller volumes of a hydrocarbon liquid, the gas compression system comprising: a compact flow conditioner in form of a tank, intended to be placed below sea level in close vicinity to a well head or on a dry installation, said flow conditioner being configured to receive a multi-phase flow of hydrocarbons through a supply pipe from a sub sea well for further transport of such hydrocarbons to a multi-phase receiving plant; anda combined multiphase pump and compressor unit;wherein the gas compression system is configured such that the gas and the liquid are separated in the flow conditioner and the separated gas and liquid are re-assembled and enter a multi-phase meter prior to boosting by the combined multiphase pump and compressor unit,wherein the combined multiphase pump and compressor unit comprises an impeller for compressing a mixture of gas and liquid, functioning on the centrifugal principle, such that the gas and liquid is given an increased pressure in the same unit,wherein a regulating valve is opened to recirculate gas from downstream of the unit to upstream of the unit responsive to detection by the multi-phase flow meter of liquid flow rates above a predetermined threshold or a pulsating supply of fluid, andwherein said flow conditioner receives the multi-phase flow from the supply pipe via a generally horizontal pipe, and wherein a generally vertical pipe including a constriction or valve extends from the top of the generally horizontal pipe to downstream of the flow conditioner, such that a portion of the gas of the multi-phase flow in the generally horizontal pipe flows into the generally vertical pipe and is mixed with the flow downstream of the flow conditioner. 2. The gas compression system according to claim 1, wherein the flow conditioner is in a form of a horizontal cylinder having a larger diameter than the diameter of the supply line from the well, and having its longitudinal direction parallel to the fluid flow direction. 3. The gas compression system according to claim 1, wherein the separated gas and liquid is sucked up through separate pipes and re-mixed again upstream of the combined multiphase pump and compressor unit. 4. The gas compression system according to claim 1, wherein the liquid is sucked up and distributed in the gas flow by the venturi principle where the venturi effect is obtained by a constriction in the supply pipe to the impeller, just upstream of the impeller. 5. The gas compression system according to claim 1, wherein the gas and the liquid are sucked up through a common pipe and directed through the multi-phase flow meter into the combined multiphase pump and compressor unit. 6. The gas compression system according to claim 1, wherein a rotating and/or static separator for separating liquid and gas is arranged in conjunction with the combined multiphase pump and compressor unit. 7. The gas compressor system according to claim 1, wherein the flow conditioner is provided with an inherent cooler for reduction of the system dimensions and complexity for the fluid to exchange heat with the surrounding sea water. 8. The gas compressor system according to one of the claim 1, wherein the system comprises a heating line into the regulating valve in order to prevent formation of hydrates by using hot cooling gas from the motor cooling. 9. The gas compression system according to claim 1, wherein the system comprises a liquid removal unit to avoid recycling of liquid while utilizing the regulating valve. 10. The gas compression system according to claim 1, wherein the flow conditioner comprises a second outlet pipe for removal of sand when required through a separate valve. 11. The gas compression system according to claim 1, wherein the flow conditioner is provided with internally arranged flow influencing means, securing an even supply of liquid. 12. The gas compression system according to claim 1, wherein an arrangement of permanent magnets is utilized to collect magnetic particles from an extracted process flow stream from the process system, but not limited to the combined pump and compressor unit prior to feeding the process gas to an electromotor and bearings. 13. A method of conditioning of large volumes of hydrocarbon gas in a sub sea well flow and accompanying smaller volumes of a hydrocarbon liquid by a gas compression system, the method comprising the steps of: receiving a multi-phase flow in a compact flow conditioner through a supply pipe from a sub sea well for further transport of such hydrocarbons to a multi-phase receiving plant, the flow conditioner being in form of a tank below sea level in close vicinity to a well head or on a dry installation,wherein said flow conditioner receives the multi-phase flow from the supply pipe via a generally horizontal pipe, and wherein a generally vertical pipe including a constriction or valve extends from the top of the generally horizontal pipe to downstream of the flow conditioner, such that a portion of the gas of the multi-phase flow in the generally horizontal pipe flows into the generally vertical pipe and is mixed with the flow downstream of the flow conditioner;providing a combined multiphase pump and compressor unit;operating the gas compression system such that the gas and the liquid are separated in the flow conditioner whereupon the separated gas and liquid are re-assembled prior to boosting by the combined multiphase pump and compressor unit which compresses the gas and the liquid as a mixture,wherein the combined multiphase pump and compressor unit functions on the centrifugal principle such that within the same rotational movement, both, the gas and the liquid is given an increased pressure in the same unit,opening a regulating valve to recirculate gas from downstream of the unit to upstream of the unit responsive to detection by a multi-phase flow meter of liquid flow rates above a predetermined threshold or a pulsating supply of fluid, andtransporting liquid and gas from the flow conditioner to the remote multi-phase receiving plant.
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