CHLORINATED HYDROCARBONS AS LUBRICANTS FOR COILED-TUBING (CT) SUBTERRANEAN DRILLING IN OIL-GAS EXPLORATION APPLICATION

Abstract

A composition having: 91% to 97% by weight a first component; and 3% to 9% by weight of a second component, the first component having one, two, or three of the following chlorinated-hydrocarbon subcomponents: the first chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 35% to 45% by weight chlorine, the second chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 45% to 55% by weight chlorine, and the third chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 55% to 65% by weight chlorine, the second component being ethoxylated castor oil, calcium alkylbenzene sulfonate, or a combination thereof.

Claims

1. A composition comprising: 91% to 97% by weight a first component; and 3% to 9% by weight of a second component, the first component having one, two, or three of the following chlorinated-hydrocarbon subcomponents: the first chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 35% to 45% by weight chlorine, the second chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 45% to 55% by weight chlorine, and the third chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 55% to 65% by weight chlorine, the second component being ethoxylated castor oil, calcium alkylbenzene sulfonate, or a combination thereof.

2. A method comprising the step of: using the composition of claim 1 as a steel-on-steel friction-reducing lubricant.

3. A method comprising the step of: adding the composition of claim 1 to a drilling fluid in a coiled-tubing drilling process.

4. The method of claim 3, wherein adding the composition of claim 1 to a drilling fluid in a coiled-tubing drilling process reduces steel-on-steel linear friction by at least 40%.

5. A composition comprising: 50.7% to 56.7% by weight a first component; 0.4% to 6.4% by weight a second component; 5.6% to 11.6% by weight a third component; 25.6% to 31.6% by weight a fourth component; and 2.7% to 8.7% by weight a fifth component, the first component having one, two, or three of the following chlorinated-hydrocarbon subcomponents: the first chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 35% to 45% by weight chlorine, the second chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 45% to 55% by weight chlorine, and the third chlorinated-hydrocarbon subcomponent being a plurality of chlorinated hydrocarbons that range from 55% to 65% by weight chlorine, the second component being ethoxylated castor oil, calcium alkylbenzene sulfonate, or a combination thereof, the third component having vegetable methyl esters, biodiesels, methyl fatty esters, methyl oleates, methyl palmitates, or a combination thereof, the fourth component having polyglycols, ethers, glycols, or a combination thereof, and the fifth component being tap water.

6. A method comprising the step of: using the composition of claim 5 as a steel-on-steel friction-reducing lubricant.

7. A method comprising the step of: adding the composition of claim 5 to a drilling fluid in a coiled-tubing drilling process.

8. The method of claim 7, wherein adding the composition of claim 5 to a drilling fluid in a coiled-tubing drilling process reduces steel-on-steel linear friction by at least 40%.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0008] Embodiments are directed to a metal-on-metal friction-reducing lubricant composition that is useful in coiled-tubing drilling applications. In a first embodiment, the composition has two components: [0009] (i) 91% to 97% by weight a chlorinated-hydrocarbon component, and [0010] (ii) 3% to 9% by weight an emulsifier component.

[0011] And in a second embodiment, the composition has five components: [0012] (i) 50.7% to 56.7% by weight a chlorinated-hydrocarbon component, [0013] (ii) 0.4% to 6.4% by weight an emulsifier component, [0014] (iii) 5.6% to 11.6% by weight a vegetable methyl esters component, [0015] (iv) 25.6% to 31.6% by weight a component that has polyglycols, ethers, glycols, or a combination thereof, and [0016] (v) 2.7% to 8.7% by weight tap water.

[0017] Chlorinated hydrocarbons are commercially available, and useful chlorinated hydrocarbons include chlorinated hydrocarbons that are: 35% to 45% by weight chlorine, 45% to 55% by weight chlorine, 55% to 65% by weight chlorine, or combinations thereof.

[0018] Emulsifiers are commercially available, and useful emulsifiers include ethoxylated castor oil, calcium alkylbenzene sulfonate, or a combination thereof. Ethoxylated castor oil is commercially available from Milliken Chemicals Corporation as Synlube™ 728. Calcium alkylbenzene sulfonate is commercially available from Stepan Chemicals Corporation as Ninate™ 401. A useful emulsifier package is available from Dover Chemical as ECP-1366™.

[0019] Vegetable methyl esters are commercially available, and useful vegetable methyl esters include biodiesels, methyl fatty esters, methyl oleates, methyl palmitates, or a combination thereof.

[0020] Polyglycols, ethers, and glycols are commercially available. Any known polyglycol, any known ether, and any known glycol can be used. Any of these can be used alone or in combination. A useful commercial blend of off-spec or by-products having polyglycols, ethers, and glycols is available from Aloe-Lube, Inc. as Black Max™.

[0021] Tap water is known.

[0022] Both embodiments are useful as a metal-on-metal friction-reducing lubricant in coiled-tubing drilling. For each embodiment, the metal-on-metal friction-reducing lubricant composition is useful as a dispersed phase in a drilling or flushing fluid continuous phase. Any water-based drilling or flushing fluid can be used as a continuous phase, and low-salt brine is a useful drilling-fluid continuous phase.

[0023] In embodiments, the metal-on-metal friction-reducing lubricant composition can be used with a water-based drilling fluid at a relative weight ratio of: (i) 1 to 400, or (ii) 1 to 300-500. The metal-on-metal friction-reducing lubricant composition can be used in coiled-tubing drilling in the same way that other known lubricants are used in a water-based coiled-tubing drilling fluid.

[0024] When the compositional embodiments are used in combination with low-salt brine at a relative weight ration of 1 to 400, metal-on-metal friction is reduced by at least 40%. In some embodiments, metal-on-metal friction is reduced by at least 50%. And in some embodiments, metal-on-metal friction is reduced by at least 60%.

Examples Section

[0025] Description of Ofite Testing Method:

[0026] The chlorinated-hydrocarbon lubricant blends were evaluated using Ofite Lubricity Meter manufactured and calibrated by Ofite Inc. In this test, the main lubrication mechanism involves the rubbing surfaces from a steel O-ring and Steel Block; both were immersed in the tested fluid and on them a load in pounds were applied and the revolution of spinning O-ring was set at 100 rpm. The tested coiled-tubing or CT fluid was aged in 160 F rolling oven for 16 hours before being tested. We called this preparation “after hot-roll” or AHR samples. Before each tested AHR sample which contained the novel lubricant chlorinated blends at 1 ppb or pound per barrel which was calculated to 0.25 wt %, a blank or plain brine sample without any lubricants is run with Ofite first to establish a baseline of 33 lb-in torque after 10-minute duration of the test. Blank or standard torque was set at 33 lb-in. The immediately the cup containing blank was removed and replaced with another cup which contains the tested CT fluid. The test is then repeated at 100 RPM, without the whole assembly was dismantled or any parameters were reset or adjusted. The final torque, normally the lowest, was recollected and recorded after 10-min test duration. We considered the final test torque is the meaningful one at which the rubbing or friction mechanism has reached a steady state.

[0027] Then the percent of friction reduction can be calculated as follows:

% FR=(33 lb-in−torque of tested fluid)/33 lb-in×100

TABLE-US-00001 TABLE 1 Coiled-Tubing or CT Fluid Formula 400 g low-salt (5% NaCl salt) brine plus l g of the novel lubricant blend

TABLE-US-00002 TABLE II Typical Formulae of the Novel Dispersible Chlorinated Lubricant Blends Ingredients Formula I Formula II Chlorinated hydrocarbons  94.0%  53.7% (40% Cl or 50% Cl or 60% Cl) Dover Chemical’s ECP-  6.0%  3.4% 1366 emulsifier package (1) Vegetable methyl esters    0%  8.6% Aloe-Lube Inc.’s Black Max (2)    0%  28.6% Distilled water    0%  5.7% Total 100.0% 100.0% Appearance of the blend clear homogenous Notes: (1) ECP-1366 is a commercial blend of emulsifiers designed specifically to disperse chlorinated hydrocarbons in water or brines. (2) Black-Max is a blend of off-spec or by-products consisted of polyglycols, ethers, and glycols, offered by Aloe-Lube Inc.

[0028] Blank or Base of CT Fluids Used in Testing the Novel CT Lubricant Blends:

[0029] The base of CT fluids used in this application or the Blank is low-salt (5% NaCl salt) brine, considered as synthetic sea water, which has a torque of 30 lb-in at 150 lbs load and 100 rpm. Thus, the torque of 30 lb-in is used as the standard to calculate all % FR or percents of friction reduction, as follows:

% FR=[(30−resulted torque of tested CT fluid)/30]×100

[0030] Logically, % FR is equal to be zero for the blank fluid which contains no CT lubricant blend.

TABLE-US-00003 TABLE III Ofite Testing Results with 0.25 wt % lubricant in Coiled-Tubing synthetic sea- water fluid, at 150 lbs load and 100 rpm speed Chlorinated level (%) in the chlorinated hydrocarbons 40% Chlorine 50% Chlorine 60% Chlorine Blank torque, lb-in 30 30 30 30 30 30 Formula--> Formula I Formula II Formula I Formula II Formula I Formula II Resultant 14 12 14 11 17 14 Torques, lb-in % FR 58% 64% 58% 67% 48% 58%

[0031] Testing Results and Discussion:

[0032] We did illustrate here that the lubricant blends contain chlorinated hydrocarbons with variety of chlorine levels, being made dispersible in water or low-salt brine, were very effective in reducing friction in coiled-tubing application, through the steel-rubbing-against-steel with Ofite lubricity tester.