WO1995014543A1 - A method for disposing of drilling wastes - Google Patents

Abstract

A method for disposing of drilling wastes downhole in a disposal zone (7) while drilling a wellbore (1). This method enables drilling wastes to be continuously or intermittently disposed of as desired while drilling a wellbore (1). This method also enables the disposal zone (7) to be sealed off from the wellbore (1) as a completion step in completing the wellbore (1) into a well.

Description

A Method for Disposing of Drilling Wastes This invention relates to a method for difposing of drilling wastes. More particularly, the invention relates to a method for disposing of drilling wastes into an earth formation that is of a composition that will contain the drilling wastes and which earth formation is penetrated by the wellbore and located above a drill bit used in forming the wellbore.

In order to form a well in the earth a wellbore is drilled into the earth and is completed as a well. This is frequently done for the purpose of recovering hydrocarbon fluids from subterranean formations though it may also be desirable to form wells into the earth for other purposes such as, for example, for recovering helium, sulphur, salts, such as sodium chloride, or for forming wells that penetrate a formation or zone in the earth subsurface that is to be used for purposes such as for storage of gases including hydrocarbon gases, hydrocarbon liquids or other liquids and gasses.

In the drilling of wells drilling fluids are used to facilitate the drilling process. The drilling fluids may liquid, gaseous or modifications thereof such as foam. The base for liquid drilling fluids is often aqueous or oil. Drilling fluids are often referred to as drilling muds and may be referred to more specifically as water based drilling muds, oil based drilling muds, gas and foam drilling fluids or muds.

In the use of drilling fluids the fluids are circulated between the earth surface and the lower portion of the wellbore for such purposes as cooling the drilling bit and removing cuttings made by the bit from the wellbore, as well as for other well known purposes such as for stabilization of the wellbore. Additives are included in the drilling fluids to obtain desired characteristics of the fluids. For convenience throughout this document drilling fluids may be referred to generically as drilling muds or sometimes as muds. In the drilling of wellbores the drilling muds that are used are recovered. These used drilling muds contain materials which may contaminate the environment if not disposed of properly. Efforts have been made to dispose of used drilling muds and other such materials in an environmentally safe manner.

Drilling muds are sometimes solidified with cement slurries in mud pits at the surface. Drilling muds and other such materials may be disposed of by pumping the materials into disposal wells.

In US-A-5108226 there is described a method of disposal of drilling wastes by dispersing the drilling wastes with an aqueous saline solution and injecting the solution into an underground formation and thereafter fracturing the formation to allow continued injection of the drilling wastes at relatively low pressures into the created fractures in the formation. In US-A-5109933 and US-A-5129469 there is described a method and system for shearing and grinding drill cuttings to form a viscous slurry and thereafter disposing of the drill cuttings by injecting the viscous slurry into a subsurface formation by way of an annular space formed in a wellbore. In

US-A-5133624 there is disclosed a method and apparatus for waste disposal by hydraulic embedment in a subterranean formation wherein a wellbore is drilled into a stable geologic formation below the ground, fracturing the formation, pumping a mixture of hazardous waste in solid, liquid, or sludge form in a selected transport medium into the fractured formation, and preventing migration of the waste.

According to the present invention there is provided a method for disposing of drilling wastes formed when drilling a wellbore comprising:

(a) forming a wellbore that extends from the earth surface and through a disposal zone in a disposal formation; (b) installing a first casing string in the wellbore which extends through the disposal formation and communicate with the disposal zone and terminates below said disposal formation;

(c) extending said wellbore into the earth below said first casing string;

(d) installing a second casing string in the wellbore which extends from the earth surface to a location below the terminal end of said first casing string;

(e) extending said wellbore into the earth below said second casing string by drilling wherein a drill string with a drill bit attached to the lower end thereof is employed to cut into the earth thereby forming drill cuttings;

(f) circulating drilling fluid down said drill string and around said drill bit to entrain said drill cuttings and up a first annulus formed intermediate said drill string and said second casing string to the surface of the earth;

(g) treating said drilling fluid at the earth surface to remove drilling wastes therefrom; and

(h) injecting said drilling wastes into said drilling zone.

Preferably, in step (b) said first casing string is installed to extend from the earth surface and terminate below said disposal zone.

In one embodiment, in step (b) communication with said disposal zone is provided by incorporating within said casing string a slotted portion and wherein said slotted portion is installed adjacent said disposal zone to provide communication between said disposal zone and said second annulus.

In another embodiment, in step (b) communication with said disposal zone is provided by perforating said first casing string adjacent said disposal zone.

Desirably, in step (h) said drilling wastes are injected down a second annulus formed intermediate said first and said second casing string and into said disposal formation. It is preferred that between steps (g) and (h) said drilling wastes are dispersed in an aqueous saline solution thereby forming a drilling waste and saline mixture.

The saline solution may comprise sodium chloride, potassium chloride, or produced formation water and mixtures thereof; Typically, the drilling wastes comprise drilling fluids, drilled solids, drilling muds or mixtures thereof. In step (e) the drilling may be carried out using conventional drilling techniques.

It is desirable that the following steps are carried out: (i) hydraulically fracturing said disposal zone so as to allow continued injection of said drilling wastes into a created fracture in said disposal zone; and

(k) thereafter repeating hydraulic fracturing to reestablish communication with a disposal zone whenever a "skin" builds up due to filtration of solids within said formation. The continued of drilling wastes into the created fracture can be carried out at low pressure relative to the pressure that would be needed without the fracturing.

In general, the suitable earth formation should be one that can accept the drilling wastes, either in its present state or one that can be hydraulically fractured. Unconsolidated formations such as unconsolidated sands, sandstone and carbonate formations can accept drilling wastes, either in their in situ state, or after hydraulically fracturing or other types of treatments, such as acidizing. In addition, the suitable earth formation should preferably be one that will contain the drilling wastes in the sense of being a formation from which the drilling wastes will not migrate to other formations and pollute sensitive formations such as fresh water formations. Another characteristic of the suitable earth formation for receiving drilling wastes is that it must be located uphole, that is above the lower end of the wellbore during drilling operations. Such a suitable earth formation may hereafter be referred as a disposal zone.

The practices of the present invention utilizes many of the features described in US-A-5108226. In this patent an- aqueous slurry containing drilling wastes is prepared. The drilling wastes are obtained as a result of drilling holes or wellbores into the earth for the purpose of producing hydrocarbonaceous fluids, hereinafter often referred to as hydrocarbons or hydrocarbon fluids, therefrom. The drilling wastes result from circulating a drilling mud or drilling fluid intermediate the surface of the earth and the bottom of the wellbore during drilling operations. The drilling fluid cools and lubricates the drilling bit and lifts earthen material, which may hereinafter be referred to as drill cuttings, out of the wellbore. The drilling fluid may comprise water or oil as a base, additives to increase its viscosity and density, and other additives to achieve desired characteristics of the drilling fluid.

Reference is now made to the accompanying drawing, in which there is shown an illustration of a method for disposing of drilling wastes according to the invention.

In the drawing there is shown a wellbore 1 extending from the surface 3 of the earth and penetrating subsurface formations 5, 7, 9, 11 and 13 thereof. The wellbore 1 penetrates formation 5 which overlies a formation 7. Formation 7 has characteristics that enable the formation to accept and contain drilling wastes. This formation 7 is referred a disposal formation or a disposal zone. The wellbore 1 penetrates formation 9 and formation 11 which underlie formation 7 and extends into formation 13.

In drilling the wellbore 1 a drill string 15 is used with a drill bit 17 attached to the lower end thereof. The wellbore 1 is extended into the earth to penetrate the subsurface formations thereof by means of conventional drilling techniques. After extending the wellbore 1 through formation 5 and disposal formation 7 a casing string 19 is installed in the wellbore 1 such that it extends from above the boundary of formation 5 and disposal formation 7 through disposal formation 7 and below the boundary of disposal formation 7 and formation 9. The casing string 19 will normally extend upward to the surface 3 of the earth. The casing string 19 is installed in the wellbore 1 using conventional techniques, for example by cementing the casing string 19 in the wellbore 1, whereby a cement casing sheath 21 is" formed about the casing string 19 and intermediate the formations 5, 7 and 9 such that the casing string 19 is held in the wellbore 1.

The casing sheath 21 seals the annulus that exists intermediate the casing string 19 and the wall of the wellbore 1 and prevents fluid communication between disposal formation 7 and overlying formation 5 and underlying formation 9. Perforations 23 are formed through casing string 19 and casing sheath 21 and adjacent disposal formation 7 using conventional perforating techniques to provide for fluid communication intermediate formation 7 and the interior of wellbore 1. Such fluid communication may be provided by other conventional techniques such as by use of slotted casing in conjunction with the appropriate placement of cement used in cementing the casing in place.

The wellbore 1 is extended further into the earth, as shown through formations 9 and 11, and a second casing string 25 is installed in the wellbore thereby forming an annulus intermediate the drill string 15 and the second casing string 25. The wellbore 1 is further extended into formation 13 by conventional drilling techniques whereby the drill bit 17 cuts into the earth thereby forming drill cuttings. Drilling fluid 29 is circulated intermediate the surface of the earth 3 and the bottom of the wellbore 1 via the interior of the drill string 15, the annulus formed intermediate the drill string 15 and the second casing string 25 and openings (not shown) in or around the drill bit 17 to remove the drill cuttings from the wellbore. The drilling fluid is treated, not shown, at the earth surface to remove drilling wastes therefrom. The drilling wastes are pumped down the wellbore 1 via a second annulus formed intermediate the first and second'casing strings 19 and 25, and out through perforations 23 and into disposal formation 7.

In a further embodiment there is formed a wellbore in the earth formations that extends from the earth surface and through a disposal zone. A first casing string is installed in the wellbore to extend through the disposal formation and communicate with the disposal zone and terminate below said disposal formation.

The wellbore is extended into the earth below said first casing string and a second casing string is installed in the wellbore to extend from the earth surface to a location below the terminal end of the first casing string. The wellbore is extended into the earth below said second casing string by conventional drilling techniques wherein a drill string with a drill bit attached to the lower end thereof is employed to cut into the earth thereby forming drill cuttings and drilling fluid is circulated down said drill string and around said drill bit to entrain the drill cuttings and flow the drill cuttings up a first annulus formed intermediate the drill string and the second casing string to the surface of the earth. The drilling fluid is treated at the earth surface to remove drilling wastes therefrom and the drilling wastes are dispersed with an aqueous saline solution thereby forming a drilling waste and saline mixture, and the mixture is injected into said disposal zone.

The drilling wastes that are dispersed into the aqueous saline solution may comprise drilling fluids, drilled solids, drill cuttings, or drilling muds and mixtures thereof and the saline solution my comprise sodium chloride, potassium chloride, or produced formation water and mixtures thereof. The disposal zone is hydraulically fractured so as to allow continued injection of said drilling wastes at relatively low pressures into a created fracture in said disposal zone, and is and is thereafter repeatedly hydraulically fractured to reestablish communication with the disposal zone whenever a "skin" builds up due to filtration of solids within said formation.

Many other variations and modifications of this invention may be made within the scope of the appended claims.

Claims

Claims

1. A method for disposing of drilling wastes formed when drilling a wellbore comprising: (a) forming a wellbore that extends from the earth surface and through a disposal zone in a disposal formation;

(b) installing a first casing string in the wellbore which extends through the disposal formation and communicate with the disposal zone and terminates below said disposal formation;

(c) extending said wellbore into the earth below said first casing string;

(d) installing a second casing string in the wellbore which extends from the earth surface to a location below the terminal end of said first casing string;

(e) extending said wellbore into the earth below said second casing string by drilling wherein a drill string with a drill bit attached to the lower end thereof is employed to cut into the earth thereby forming drill cuttings;

(f) circulating drilling fluid down said drill string and around said drill bit to entrain said drill cuttings and up a first annulus formed intermediate said drill string and said second casing string to the surface of the earth;

(g) treating said drilling fluid at the earth surface to remove drilling wastes therefrom; and

(h) injecting said drilling wastes into said drilling zone.

2. A method according to claim 1, wherein in step (b) said first casing string is installed to extend from the earth surface and terminate below said disposal zone.

3. A method according to claim 1 or 2, wherein in step (b) communication with said disposal zone is provided by incorporating within said casing string a slotted portion and wherein said slotted portion is installed adjacent said disposal zone to provide communication between said disposal zone and said second annulus.

4. A method according to claim 1 or 2, wherein in step (b) communication with said disposal zone is provided by perforating said first casing string adjacent said disposal zone.

5. A method according to any one of the preceding claims, wherein in step (h) said drilling wastes are injected down a second annulus formed intermediate said first and said second casing string and into said disposal formation.

6. A method according to any one of the preceding claims, wherein between steps (g) and (h) said drilling wastes are dispersed in an aqueous saline solution thereby forming a drilling waste and saline mixture.

7. A method according to claim 7, wherein said saline solution comprises sodium chloride, potassium chloride, or produced formation water and mixtures thereof;

8. A method according to any one of the preceding claims, further comprising hydraulic fracturing said disposal zone.

9. A method according to any one of claims 1 to 7, further comprising the following steps:

(i) hydraulically fracturing said disposal zone so as to allow continued injection of said drilling wastes into a created fracture in said disposal zone; and

(k) thereafter repeating hydraulic fracturing to reestablish communication with a disposal zone whenever a "skin" builds up due to filtration of solids within said formation.