On-Line Tool For Detection Of Solids And Water In Petroleum Pipelines

Abstract

A method and apparatus for detecting compositional aspects such as sand, water, wax deposits or asphaltene deposits of a fluid in a petroleum pipeline is disclosed. A method for managing flow of a fluid in a petroleum pipeline is also disclosed. X-rays are transmitted through the petroleum pipeline and detected to generate a density gradient profile which is preferably a function of time and space. Characteristics of the density gradient profile and correlated with characteristics of the compositional aspects of interest. The method and apparatus preferably provides presence and relative amount of the compositional aspects in real-time or near real-time such that corrective action can be taken is such aspects are not in acceptable ranges.

Description

BRIEF DESCRIPTION OF THE DRAWING

FIGS. 1 through 12 illustrate visual images and representations of density gradient profiles of fluid obtained using x-ray transmission. The information can be used to identify characteristics for future in correlating with characteristics of observed density gradient profiles.

FIG. 13 a representation of the detection tool set up for use on a petroleum pipeline.

Claims

1. A method for detecting compositional aspects of fluid in a petroleum pipeline, the method comprising: a) transmitting x-rays into a petroleum pipeline;b) detecting x-rays transmitted through fluid in the pipeline;c) generating a density gradient profile from the detected x-rays; andd) correlating the density gradient profile to known characteristics of compositional aspects of interest.

2. The method of claim 1 further comprising the steps of: e) measuring absorption spectra of phases present; andf) correlating the absorption spectra to the known characteristics of compositional aspects of interest.

3. The method of claim 1 further comprising the step of displaying a visual representation of the density gradient profile; and where, in step (d), the visual representation of the density gradient profile is correlated to the known characteristics of compositional aspects of interest.

4. The method of claim 1 wherein the compositional aspects of interest comprise compositional aspects selected from the group consisting of sand, water, wax deposits, asphaltene deposits and combinations thereof.

5. A method of managing flow in a petroleum pipeline, the method comprising the steps of: a) transmitting x-rays into a petroleum pipeline;b) detecting x-rays transmitted through the pipeline;c) generating a density gradient profile from the detected x-rays;d) correlating the density gradient profile with known compositional aspect characteristics to determine a compositional aspect of fluid in the petroleum pipeline; ande) determining whether the determined compositional aspect of the fluid is within acceptable ranges.

6. The method of claim 4 further comprising the step of: f) taking corrective action to bring the determined compositional aspect of the fluid within the acceptable ranges;g) retransmitting x-rays into the petroleum pipeline;h) detecting x-rays retransmitted through the petroleum pipeline in step (g);i) generating an additional density gradient profile from the detected retransmitted x-rays of step (h);j) correlating the additional density gradient profile of step (i) with the known compositional aspect characteristics to re-determine the compositional aspects of the fluid in the petroleum pipeline; andk) determining whether the re-determined compositional aspect of step (j) is within the acceptable ranges.

7. A device for detecting compositional aspects of fluid in a petroleum pipeline comprising: a) an x-ray transmitter adapted to transmit x-rays into an operational petroleum pipeline;b) an x-ray detector adapted to detect x-rays transmitted from the x-ray transmitter;c) a processing unit in communication with the x-ray detector adapted to produce an output signal that is a representation of a density gradient profile; andd) a visual output device receiving the output signal adapted to depict a visual representation of the density gradient profile.

8. The device of claim 7 wherein the x-ray detector comprises a fluorescent surface.

9. The device of claim 8 wherein the processing unit comprises a camera adapted to capture visible energy emitted by the fluorescent surface.

10. The device of claim 7 wherein the processing unit is programmed to correlate characteristics of a density gradient profile with predetermined compositional aspect characteristics to determine a compositional aspect of fluid in the petroleum pipeline.

11. The device of claim 10 wherein the determined compositional aspect comprises a compositional aspect selected from a group consisting of sand, water, wax deposits, asphaltene deposits and combinations thereof.

12. The method of claim 1 further comprising the step of displaying a visual representation of the density gradient profile; and wherein step (d) comprises correlating the visual representation of the density gradient profile to the known characteristics of compositional aspects of interest.