Well uplift system

Wells – With below and above ground modification – Eduction pump or plunger in well

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Details

E21B 4300

Patent

active

055621597

DESCRIPTION:

BRIEF SUMMARY
Conventionally, production fluids, such as oil, are lifted out of a predrilled or naturally formed well hole in the ground, by the pressure under which an underground reservoir of the product is maintained, either naturally or artificially by injection in the neighbourhood of the reservoir of fluid such as water. Alternatively they are recovered by lowering a pump into the well hole at the lower end of a discharge conduit. If the product reservoir is not under a naturally occurring pressure, and the local pressure is raised by injection of, for example, water, the system is inefficient in that the applied pressure is dispersed throughout the ground and is not effective to direct the product up the well hole. Downhole pumps are also inefficient in that they necessarily transfer with the product spoil, in the form of particulate solids, which abrade, and at worst block, the pump. Production fluids are usually two phase, and include liquid and gas in varying proportions. Pumps have difficulty in handling such mixtures. Mechanical pumping also tends to shear liquid oil and to form, with the water present, an emulsion which takes a long time to separate again. Downhole pumps are also expensive and have high maintenance costs as a result of the inaccessibility of their moving parts.
In accordance with the present invention, a method of raising production fluid or material from a bore hole in the ground comprises pumping water down a first conduit in the bore hole into contact with the material whereby the material is entrained and carried up through a second conduit in the bore hole to a separator where at least partial separation of the water and material takes place.
By means of this method production fluids can readily be recovered from down a well, particularly as oil and gas will tend to rise in the water, quite apart from being entrained by it. Slugs of gas in the production fluid can be accommodated without difficulty. Emulsification of the oil with water is minimal so that preliminary separation of the oil, gas and water at the surface can be conducted comparatively simply with a short residence time in, for example, a settling tank or cyclone system. Although the method may not be quite as efficient in transferring the production fluids, as the downhole pump, the previously mentions problems of using pumps downhole are avoided and the trade off is considered to be beneficial.
The water may be taken at source, ie may be deaerated aquifier water thereby avoiding compatibility problems. It is believed that, in a typical case, adequate water could be pumped down the borehole by means of a centrifugal pump providing a pressure of the order of 2500 psig.
Complete separation of the water from the oil and gas is unnecessary as the water which has been at least partially separated may be arranged to pass around a closed loop and pumped down the first conduit again. This also minimises compatibility problems.
Although the method is seen as being of particular value in recovering production fluids from an oil-well, it is believed to have other applications, for example in recovering material such as drill cuttings from the bottom of a drill pipe which is used to cut the bore hole. The material is preferably entrained by the use of a fluidising unit located downhole, and to and from which the first and second conduits respectively lead, the fluidising unit being of a kind having a supply duct which is connected to the first conduit and a discharge duct which is connected to the second conduit and which is located within the supply duct, the end of the discharge duct extending beyond the end of the supply duct. Such a unit operates in that water injected out through the supply duct activates the material which is consequently driven centrally up through the discharge duct, entrained in the fluid, and hence to the surface. The fluidising effect is enhanced if the water is arranged to swirl as it leaves the supply duct, for example as a result of the first conduit leading tangentially into the supply duct, or by means

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