TH32357B - Methods and tools for data obtained in hydrocarbon wells. - Google Patents

Abstract

DC60 (08/06/41) in a hydrocarbon pond. The velocity measurements were performed at significantly the same level in The nature of the consideration of the phase proportions of the fluid that flows along the well at least one local area. At this end, the local sensing apparatus is looped on the rotating arm of the central device. and the speedometer was placed between the arms. in the hydrocarbon pond The velocity measurements were performed at significantly the same level in The nature of the consideration of the proportions of the fluid phase that flows along the well at least one local area at this end The local sensor is looped on the rotating arm of the central device. and the speedometer was placed between the arms.

Claims (8)

1. Methods of hydrocarbon storage. Consists of steps - Placement of storage tools in hydrocarbon ponds - Multi-phase fluid flow through the storage apparatus - Measurement of the velocity of a multiphase fluid flowing through such hydrocarbon wells using the device. Flow velocity measurement installed on such a storage instrument - minimum determination in the local area installed at the same level in the longitudinal direction. Of the pond in the way of measuring the flow velocity The proportion of the fluid phase contained within the multiphase fluid That use a local detector installed on the data storage instrument That contains special features that the above method includes additional actions on the device. The center of the instrument stores such data, where the center of the flow velocity meter In the central area of the pond The central garden is about to overlap with the axis of the pond. 2. Trajectory according to claim 1 in which the proportion of the apparent fluid phase is determined in a number of One of the localities surrounding the central area 3. Trajectory according to claim 2 in which the proportion of the apparent fluid phases is determined in a number One of the locality built around the central area And set it at a significantly equal distance from there 4. Method for claim No. 2 or No. 3 in which the flow rate is determined on the section of the well by measurement. The fluid velocity in the central area and by measuring the diameter of the well at the level of each Each area 5. Trajectory according to claim 3 in which the proportion of the apparent fluid phase is determined in four regions. Locations formed at the 90's that are related to each other around the central area. And diameter Of the well was measured in two directions Perpendicular to each other through two of the local area 6. Procedure for any of the previous claims. In which the vertical direction referenced next to the axis Of the well is also determined when the well is diverted 7. The method of claim No. 1 consists of a measurement procedure on the flow segment, the flow rate of a multiphase fluid. Flowing along the pond Which contains a special feature that such flow rates Was measured in the central area of the said flow section. And where additional assembly methods, with a local pivot step, are significantly located at the same level. And carefully built 8. The method of claim No. 1 consists of the measurement procedure on the flow section, the flow rate of a multiphase fluid. Flowing along the pond Which contains a special feature that such flow rates Was measured in the central area of the said flow section. And where the additional assembly method with steps Measurement of fluid conductivity in a number of regions that are located at the same level is significant and commonly built around the central area 9. Instruments for obtaining information in hydrocarbon wells include: - central device (22) - speed measuring device. In the flow (20,54) for measurements over the pond flow section, the velocity of a multiphase fluid flowing along the flue, and - at least one local detector (48). Determining the proportion of the phase of the fluid to which it is immersed To be installed at the same level in the direction Along the length of the pond in a way to measure the velocity of flow That contains a special feature that such central devices will wear the speed measuring device in Central area of the pond The central area almost overlaps with the well axis 1 0. The instrument according to claim 9 consists of a number of local detectors (48) built around the speed measuring device (20) and located at a distance. 1, the instrument according to claim 9 or 10, in which the central apparatus consists of at least a sleeve (22) in the form of a V-shaped brazing, a flexible top end of each Each one is rotated on a spur mounted on the center housing (18) Speed measurement device (20) between the articulated arms. And the base end of each is fixed, rotated to a movable end piece (34), the flexible device (36) is blocked between the center housing (18) and each of the articulated arms (22) is pressed. Arm against the wall of the pond And each of the arm (22) carries one of Aperture receiver At the level of the speed measuring device (20) 1 2. The instrument according to claim 11 in which the central device consists of four arms (22) at 90 ° relative to each other around the longitudinal axis of the center housing (18 ) 1 3. The instrument according to claim 12, which the flow measurement device is also supplemented by Well diameter measuring device (54) between each pair In contrast, in the arm diameter (22) around the longitudinal axis 1 4. The instrument according to claim 13, the device for measuring the well diameter consists of two differential type transformers (55) supported by the central housing ( 18) 1 5. Any equipment according to Clause 9 to 14, in which equipment (58) is contained in the central housing (18), is established to set the vertical direction. Where the reference crosses with the longitudinal axis of the garden housing when the well is diverted 1 6. Instrument according to claim 15, in which the reference vertical orientation device consists of a potentiometer ( 58) with fireweight (60) 1. 7. The device according to claim 9 consists of a device for measuring fluid velocity. Multiphase flowing along the pond That contains the special features that the tool adds With central device for automatic fastening Such a speed measurement device in the area The center of the pond And a number of instruments to measure the locality of the device Measuring speed and load on a central device, such measuring instruments were responded to Phase 1 proportions 8. The device according to claim 9 contains equipment for measuring fluid velocity. Multiphase flowing along the pond That contains the special features that the tool adds With central device for automatic fastening Such a speed measurement device in the area The center of the pond And a number of local conductivity measuring instruments Speed measuring device and load on central equipment Such measuring instruments were Responds to the proportions of the phase