Patent Application
20090141585
1. Field of the Invention
This disclosure generally relates to the field of transmitting produced fluids extracted from a subterranean wellbore. The disclosure more specifically relates to a pipeline for transmitting wet crude with a mixing device for sustaining an oil and water emulsion within the wet crude.
2. Description of the Related Art
Crude oil from a subterranean formation generally comprises water along with liquid hydrocarbons. Crude oil having a discernable water fraction is herein referred to as wet-crude. After being extracted from the formation, the wet crude is transmitted to a processing facility typically through one or more transmission pipelines. Examples of a processing facility include refineries, water separation units, treatment facilities, and any other unit that refines or otherwise treats the crude oil. While flowing through the pipeline, the wet crude flow regime generally remains in a laminar flow region.
Transmission pipelines typically extend in a horizontal orientation that can run for many miles. The pipelines' long run combined with the wet crude laminar flow allows water to separate from the crude oil and contact the inner pipeline surface. Since the common material for pipelines is carbon steel, being directly subjected to a water fraction over time will corrode the inside of the pipeline. This may be exacerbated in situations when the water has a high metal salt content. This problem has been addressed by either providing a coating on the inner surface of the piping as well as injecting additives into the wet crude to maintain the water fraction in solution and dispersed within the crude fraction.
Disclosed herein is a method for transmitting a wellbore fluid through a pipeline, wherein the wellbore fluid comprises wet crude having liquid hydrocarbon and water. The method comprises directing a controlled stream of the wellbore fluid into the pipeline to produce a flowfield of wellbore fluid through the pipeline and creating non-laminar flow of the wellbore fluid in at least a portion of the pipeline with a mixing device. Use of the mixing device forms a sustaining water-in-oil emulsion of the wellbore fluid. The mixing device is disposed in the wellbore fluid flowpath and comprises a member within the pipeline. The member comprises a leading edge with a tip at one end and a crest at another end, the contour of the member between the tip and the crest being largely non-parallel to the pipeline, and wherein the member cross-section increases with distance away from the tip. The member also may comprise a rear or trailing end comprising a hemi-sphere, a body having fins helically arranged on its outer surface, a body having a terminal end substantially perpendicular to the pipeline axis, or combinations thereof.
Also disclosed herein is a pipeline for transmitting wet crude. The pipeline comprises an inlet in fluid communication with a hydrocarbon producing wellhead, wherein the inlet is formed to receive wellbore fluid from the wellhead thereby creating wellbore fluid flowfield in the pipeline. The wellbore fluid comprises wet crude having liquid hydrocarbon and water. The pipeline includes an exit in fluid communication with a wellbore fluid processing facility and a mixing device. The mixing device comprises a mixing member having a front end and a backend disposed downstream of the front end. The front end converges to a point at its leading edge and has a cross sectional area that increases with distance from the leading edge to the backend. Flowing wellbore fluid across the mixing member trips the wellbore fluid flowfield into a non-laminar state and suspends the water within the liquid hydrocarbon. In one embodiment, the front end comprises a cone and the backend comprises a shape selected from the group consisting of a hemi-sphere and a cone having helically disposed fins thereon. Optionally, the pipeline may comprise multiple members in its mixing device, where the members have a front end with a triangular cross section and a substantially planar backend that is perpendicular to the pipeline axis. The members may be vertically oriented members, horizontally oriented members, or a combination. The members may be arranged in rows that are disposed at different axial locations in the pipeline, wherein members of one row are staggered with respect to members of another row. The pipeline may include more than one mixing device.
So that the manner in which the features, advantages and objects of the invention, as well as others which will become apparent, may be understood in more detail, more particular description of the invention briefly summarized above may be had by reference to the embodiment thereof which is illustrated in the appended drawings, which form a part of this specification. It is to be noted, however, that the drawings illustrate only a preferred embodiment of the invention and is therefore not to be considered limiting of the invention's scope as it may admit to other equally effective embodiments.
a is a side partial cross sectional view of an embodiment of a mixing device.
b is an axial view of the mixing device of
a is a side partial cross sectional view of an embodiment of a mixing device.
b is axial view of the mixing device of
a is a side cross sectional view of an embodiment of a mixing device.
b is an axial view of the mixing device of
a is a side partial cross sectional view of an embodiment of a mixing device.
b is an overhead view of the mixing device of
c is an axial view of the mixing device of
a is a side partial cross sectional view of an embodiment of a mixing device.
b is an overhead view of the embodiment of the mixing device of
c is an axial view of the mixing device of
The present invention will now be described more fully hereinafter with reference to the accompanying drawings in which embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the illustrated embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.
The method and device disclosed herein provides a manner of transmitting produced wet crude through a pipeline, wherein the fluid contains a hydrocarbon and a liquid water fraction. During the fluid transmission, the method maintains the water fraction in the wet crude. More specifically, the system and method included herein incorporates a mixing device within the pipeline, wherein the mixing device perturbs the wellbore fluid into a non-laminar flow regime. The step of perturbing the wellbore fluid flow prevents water within the wet crude from coalescing and separating from within the hydrocarbon fraction thereby substantially reducing direct exposure of the inner surface of a pipeline with water contained in wet crude.
With reference now to
Also included within the pipeline 10 is a mixing device 20 having a mixing member 30 therein shown in a dashed outline. For the purposes of disclosure herein, the outer housing of the mixing device 20 is referred to as a spool 21, wherein the spool is coupled with the remaining portion of the pipeline 10 via respective flanges 22. Thus when disposed within the pipeline 10, the spool 21 may be considered as part of the pipeline 10.
a and 2b illustrate in a side and an end view an embodiment of a mixing device 20a. The mixing device 20a comprises a spool 21a flanked by flanges 22a. The flanges 22a provide a connection means for connecting the mixing device 20a within an associated pipeline. The mixing device 20a includes a mixing member 30a having a front end 32 and a rear end 34. The front end 32 cross-sectional area increases with distance from the tip 31 of its leading edge along its length. Along the increase the front end 32 has a profile angled (not parallel) with the spool 21a inner circumference. One embodiment of supports 36 illustrates structural members that support the mixing member 30a within the spool 21a. The supports 36 also orient the mixing member 30a within a flow field of wellbore fluid flow. Fluid flow is illustrated by arrows on the upstream portion of the mixing device 20a.
The front end 32 comprises a generally conical shape converging to a tip 31 at a forward portion of its leading edge and a rear end 34 (also referred to as a trailing edge) with a generally semi-hemispherical shape. In the embodiment shown, the mixing member 30a is oriented so the leading edge is directed opposite the fluid flow direction. Accordingly, particles in the fluid flow encounter the leading edge before passing over the remaining portion of the mixing member 30a. Flow arrows depicting a flow path over the member 30a are directed around the outer surface of the flow member 30a at an angle oblique to the axis of the mixing device 20a.
In one mode of operation, fluid entering the mixing device 20a is in a generally laminar flow regime. The laminar flow regime is illustrated by the uniform length and distribution of the arrows proximate to the entrance flange 22a. The flow field here is denoted by FL, where the subscript âLâ represents laminar flow. As noted above, upon reaching the front end 32 the flow field splits and flows along the outer surface of the mixing member 30. The region where the mixing member 30 cross sectional area is at a maximum is referred to as its crest. Along the crest region the annulus area between the mixing member 30 outer surface and spool 21a inner diameter is minimized thus producing a localized maximum in fluid velocity. The flow field redirection by the front end 32 is relatively gradual. In contrast, as the flow passes across the rear end 34, its profile abruptly truncates which creates a low pressure field just downstream of the rear end 34. The low pressure field directs the flow field towards the mixing device 20a axis A. The abrupt redirection of flow thereby trips the flow field from a laminar state into a non-laminar state and sufficiently perturbs the wet crude to suspend its water fraction therein. The flow field is identified by FT, where the subscript âTâ represents transitional flow. Moreover, the non-laminar transition sustains the water and oil emulsion of the wellbore fluid within the pipeline having the mixing device.
a illustrates in side cross sectional view another embodiment of a mixing device 20b comprising a mixing member 30b coaxially disposed within a spool piece 21b. Flanges 22b are disposed on the ends of the spool piece 21b. The mixing member 30b comprises a front end 32a and a rear end 34a. The front end and rear end (32a, 34a) both have a substantially conical shape and are mated at their respective base ends. Supports 36a extend from the spool 21b to the outer surface of the mixing member 30b for maintaining the mixing member 30b within the wellbore fluid flow. Fins 38 are helically arranged on the rear end 34a. The fins 38 each have a width that exceeds its thickness and form corresponding helical channels 39 that run from the base 35 of the rear end 34a toward the downstream tip 37 of the mixing member 30b. The helically shaped channels 39, in combination with the alternating higher fluid velocity adjacent the front end/back end juncture, creates a fluid mixing zone downstream of the mixing member 30b. As noted above, the zone produces a perturbing mixing action and may trip laminar fluid flow into non-laminar flow that suspends the water components within the liquid hydrocarbon.
a illustrates yet another embodiment of a mixing device 20c having a mixing member 30c disposed within a spool 21c. The spool includes flanges 22c on its ends for connection within an associated pipeline. The mixing member 30c of
In the embodiment of
a and 5b illustrate a side overhead and an axial view of a mixing device 20b having individual mixing members 41a disposed within the device. The mixing device 20d is equipped with flanges 22d on its ends for attachment within a pipeline. Some of the members 41a are vertically arranged and some are horizontally arranged. With reference now to
a-6c illustrate yet another embodiment of a mixing device 20e. In this embodiment, the mixing device comprises a mixing member 30e disposed within a spool 21e having flanges 22 at its respective ends. The mixing member 30e comprises mixing members, some of which are horizontal and some vertical. As illustrated by
The present invention described herein, therefore, is well adapted to carry out the objects and attain the ends and advantages mentioned, as well as others inherent therein. While a presently preferred embodiment of the invention has been given for purposes of disclosure, numerous changes exist in the details of procedures for accomplishing the desired results. These and other similar modifications will readily suggest themselves to those skilled in the art, and are intended to be encompassed within the spirit of the present invention disclosed herein and the scope of the appended claims.
