A flow splitter may include an inlet, at least two outlets, and an internal vane comprising a first end corresponding to the inlet and a second end corresponding to the at least two outlets, wherein the internal vane is configured to turn, between the first end and the second end, an internal flowing fluid from 0 degrees to a degree between about 60 degrees and 150 degrees. Methods of dividing fluid flow are also provided.

A separator and measurement system includes a separator arranged to separate gas from liquid. A gas line assembly is connected to the test separator to receive gas, with the gas line assembly having a gas flow meter. A liquid line assembly can be connected to the test separator to receive liquid. In one embodiment a water cut meter having a flow housing that defines a cavity, a plurality of antenna connected to the flow housing by antenna connector, and a protective covering for each of the plurality of antenna can be a component of the separator and measurement system.

A flow splitter may include an inlet, at least two outlets, and an internal vane comprising a first end corresponding to the inlet and a second end corresponding to the at least two outlets, wherein the internal vane is configured to turn, between the first end and the second end, an internal flowing fluid from 0 degrees to a degree between about 60 degrees and 150 degrees. Methods of dividing fluid flow are also provided.

A system includes a plurality of static mixers. Each static mixer has an internal cylinder defining a central orifice for passage of the multi-phase fluid. The internal cylinder has an inlet side and an outlet side. The inlet side of the internal cylinder has a plurality of inlet channels, and the outlet side of the internal cylinder has a plurality of outlet channels. The multi-phase fluid enters the inlet side to be mixed in the central orifice and is expelled through the outlet side. The plurality of static mixers are fixedly disposed along the pipeline at a predetermined number of locations, spaced a predetermined distance apart, to mix the multi-phase fluid and prevent formation of the adverse flow regimes.

A method of cleaning deposited solid material from a fouled portion of a gas compressor (6) whilst the gas compressor (6) is in situ in a natural gas processing system (1) is provided. The method comprises the steps of supplying a liquid cleaning agent to a gas inlet of the gas compressor (6), the liquid cleaning agent being capable of removing the deposited solid material; passing the liquid cleaning agent through the gas compressor (6) to a gas outlet of the gas compressor (6), wherein at least a portion of the cleaning agent remains in a liquid state as it passes through the fouled portion of the gas compressor (6); and recovering a fluid containing removed material that is output from the gas compressor (6) so as to prevent the removed material reaching one or more gas processing stages of the gas processing system (1) downstream of the gas compressor (6).

A subsea installation for heating a two-phase liquid/gas effluent circulating within a subsea casing, includes a plurality of heated pipe sections which are successively connected to one another by curved pipe sections to form a heating coil, each heated pipe section being inclined with respect to the horizontal at an angle comprised between 2 and 10° in order to promote a distributed flow regime of the two-phase effluent and being provided with an induction heating system.

A cleaning apparatus is used with a slug catcher for a pipeline upstream of a process. An inlet of the catcher separates liquid and gas of the flow, and a gas outlet outputs the gas. Tubes of the catcher extend below the inlet to collect the liquid in a liquid outlet for output to the process. An actuator of the apparatus has a mover disposed internal to a portion of the liquid outlet. Movable with the actuator, the mover moves any debris relative to at least one outlet port of the liquid outlet. For example, a motor can rotate a feed screw in a sludge manifold to move a paddle for scrubbing debris to an outlet in the manifold. In another example, a motor can rotate an auger in the sludge manifold to move debris to the manifold's outlet. The apparatus can be manually or automatically operated.

Systems and methods include a system for processing health information for multiphase flow meters (MPFMs) of different types and at one or more different locations. Multiphase flow meter (MPFM) readings of different MPFM types are received in real-time from MPFMs at different locations. For each MPFM, an MPFM health rule that corresponds to the MPFM readings is determined using the MPFM readings and logic of MPFM health rules. A recommendation is determined for each MPFM based on the MPFM health rule. A health status and an alarm priority are determined for each MPFM using the MPFM readings and the logic of MPFM health rules. A dashboard is presented to a user that includes, for each MPFM, the MPFM readings, the recommendation, the health status, and the alarm priority.

A method can include detecting instability of multiphase fluid flow in a multiphase fluid production system using sensor measurements from the multiphase fluid production system; and, responsive to the detection of instability, increasing gas injection into the multiphase fluid production system until a variation metric of the sensor measurements decreases to a level indicative of stable multiphase fluid flow in the multiphase fluid production system.

A method of operating a submersible pumping system includes the steps of placing the pumping system in a normal mode of operation and then detecting the possible presence of a gas slug in proximity to the pumping system by measuring a decrease in the load on the motor. Once the possibility of a gas slug has been detected, the method continues by placing the pumping system in a reduced speed cycle. The pumping system is kept in the reduced speed cycle until the absence of a gas slug in proximity to the pumping system is detected by evaluating two independent conditions within the pumping system.