DE3124393A1 - Liquid concentrate - Google Patents

Abstract

A liquid concentrate is prepared which is to be mixed with a biodegradable, environmentally safe oil in order to obtain a cleaning and dissolving liquid which, for its part, is used for loosening a pipe, boring rod, etc which is stuck in a borehole. This concentrate is obtained by mixing together "Witcamine 209", "Witcamide t11" and "Acintol FA-1". The concentrate, for its part, is added to an environmentally safe, biodegradable, non-fluorescent oil.

Description

DESCRIPTION

"Liquid concentrate" The present invention relates to a liquid concentrate, which is used together with drilling muds and the like, with the typical oil additive such drilling mud and / or their additives is eliminated.

So far, liquids based on diesel oil have been the only ones reliable means to a stuck in a borehole drill pipe, pipe and the like. to solve again. The main disadvantage of using such funds at sea is there in the fact that special transport options for these potential environmental hazards evoking agents must be created, as these materials because of their Diesel oil content cannot simply be poured into the seawater; further these agents cannot be added to the mud system of the borehole to be drilled because environmental damage and poisoning problems are also to be feared here. It was therefore necessary to have any such diesel oil-based means To transport storage facilities on the coast. In addition, the present Invention drilling fluids as used in oil and gas drilling; in particular, the present invention relates to hydrous drilling fluids.

As is well known, the essential function of a drilling fluid is or a drilling mud in supporting the wall of the borehole and a collapse because of the formation of a filter cake along the sides of the borehole, further remove the section from the bottom of the borehole when the drill bit is down cuts into the earth formation and cools the cutting edges of the drill bit.

Regarding the state of the art, see the following US patents 3 761 410, 2 316 967, 2316 968, 2 222 949, - 2 604 448 and 2 698 833. Further is a water-containing drilling fluid by the inventors named for the present application with environmentally friendly additives, consisting essentially of the following Components consists of: 0.04 to 8 vol .-% lubricant, 0.02 to 2 vol .-% emulsifier, 0.0 to 0.01% by volume of a fluid loss control agent, 0.53 up to 71 vol .-% environmentally friendly, biodegradable oil, namely mineral oil and / or a vegetable oil and the rest of the water.

The object of the present invention is to provide a liquid concentrate provide the environmentally friendly biodegradable, non-fluorescent oil and fresh water or salt water can be added to obtain a means with the one in a drill hole stuck drill pipe, pipe or the like. Can be solved.

The application of environmentally friendly oils in the context of the present The invention has the further advantage that such oils are non-fluorescent and therefore the geological analysis of samples of the earth formation and that of the The drill bit does not interfere with detached waste material, such as crude oil and diesel oil to do; in addition, such environmentally friendly oils do not require the addition of additional ones Emulsifiers to keep the emulsion stable, like the one on the Base of diesel oil and crude oil is the case; after all, make such environmentally friendly Oils contribute to improving the rheological properties of the drilling mud, such as to improve hopper viscosity, plastic viscosity and the yield point compared to comparable means based on crude oil or diesel oil.

The oil can be any known, pure, biodegradable, non-fluorescent, vegetable Oil or mineral oil, such as white mineral oil, peanut oil, soybean oil, cotton oil, corn oil, Rice oil and safflower oil. In addition, it should be noted that there are numerous other oils are, which are biodegradable to the required extent and which instead or can be used together with the above blen. Unless mineral oils are used, they are preferably pure, refined, tasteless, odorless and colorless oils.

The following is for that provided according to the invention Liquid concentrate indicated a wide range of compositions. Materials from this composition range have proven to be highly effective: 15 to 40 Vol.-E "Witcamide 511", 40 bis 60% by volume "Acintol FA-1" and 2.5 to 32.5% by volume "Witcamine 209".

The names "Witcamide 511," Acintol FA-1 "and" Witcamine 209 " are explained in detail below.

The mixture of these components is in the form of a concentrate transported and is usually intended in a certain percentage added to the biodegradable oil. Typically is an addition of 3% by volume concentrate is advisable. In addition, this addition can also be about 3% by weight or 3 parts by weight.

In particular, the physical mixing at room temperature causes a chemical interaction of the components "Witcamine 209", "Witcamide 511" and "Acintol FA-1" which can be described as a chemical interaction which leads to the formation of fatty acid salts of tall oil with various amine-containing components , such as: The fatty acid salts of tall oil with diethylenetriamine and diethanolamine are usually only present to a minor extent; the proportion of the salts mainly formed depends on the amount of "Acintol FA-1" in relation to the component "Witcamine209".

In the context of these documents (description and claims) the term "Witcamine 209" is intended to mean an imidazole / amide mixture, the main components of which are compounds according to the following structural formulas: In the same sense, the designation "Witcamide 511" should stand for a diethanolamide material in the context of these documents, the essential part of which is a compound according to the formula below: In the same sense, the designation "Acintol FA-1" should stand for tall oil fatty acid according to the following formula: (or R-COOLI) In all of the structural formulas given, the substituent R stands for an essentially unsaturated, aliphatic C17 hydrocarbon radical.

In addition, it has been found to be after the concentrate Once at the drilling site, an emulsifying agent such as Add calcium oxide and / or bentonite to obtain a good emulsion and to ensure the desired colloidal distribution. A typical composition consists for example of 1.1 kg "Witcamide 511", 2.3 kg "Acintol FA-1", 1.1 kg "Witcamine 209".

This mixture is transported to the drilling site wherever required Emulsifier is added (for example 0.9 kg of bentonite) to the colloidal distribution of the To improve liquid concentrates. The specified mixture in the specified quantities is intended for mixing with approx. 160 1 biologically zbbabebar, environmentally friendly, non-fluorescent oil. Following this, the mixture obtained can be used at the workplace Water can be added to obtain an inverted system and that obtained thereafter Product is used as a liquid for loosening a stuck drill string or pipe and the like are used with the environmental problem minimized. After the material has been successfully used to loosen a stuck pipe, drill pipe and the like has been used, the product can be added to the usual water-containing drilling mud are fed.

The following examples serve to explain the invention further without restricting them. The examples relate to the properties of a Concentrates that according to the invention as an additive for an environmentally friendly, biological degradable, non-fluorescent oil is intended.

Example I: The purpose of this investigation was to determine the quality fluctuations to compare between 3 samples of cleaning and solvent oils, if any There are fluctuations.

The examinations were carried out using the usual laboratory facilities carried out, to which an E. P. lubricity tester, a stop watch, a potential regulator, a Fann emulsion resistance tester, mixing devices, Fann 35 A viscometer, a spring balance, a three-beam balance, a FH value measuring device and the like. belong.

The following samples, namely one from Berwick, were tested cleaning and dissolving oil sourced, a cleaning and dissolving oil sourced from Global Chemical Company Dissolving oil and a cleaning and dissolving oil produced in the laboratory of the inventor.

The properties of the cleaning and dissolving oils mentioned were measured and recorded. In particular, the pH, the rheology and the weight measured.

Then five cleaning and dissolving emulsions were produced and tested (these are two weighed samples and three non-weighed samples).

The rheology, density, electrical stability and lubricity were measured.

Information on the base oils: I. Berwick-ol A: Specific weight = 0.83 g / cm3 B: the FH value fluctuated between 6.9 and 7.1 C: rheology: RPM OFann 600 10.0 300 5.5 200 4.0 100 2.0 6 6.0 3 5.0 II. Global Chemicals, Inc.-bl Ao Specific weight = 0.833 g / cm3 B: the pH value fluctuated between 7.0 and 11.3 C: Rheology RPM OFann 600 11.0 300 5.5 200 4.0 100 2.0 6 3 III. Laboratory sample A: Specific weight = 0.83 q / cm3 B: the pH value fluctuated between 8.6 and 11.7 C: Rheology RPM OFann 600 10.0 300 5.5 200 4.0 100 2.0 6 3 IV. The following follow the information for the cleaning and dissolving emulsions obtained from the oils.

A: Cleaning and dissolving emulsion based on Berwick oil (sample A) 1. Rheology (at room temperature) RPM OFann 600 154.0 300 96.0 200 73.0 PV = 58 100 46.0 YP = 38 6 11.0 Gels 9, C / 9.5 3 8.5 2. Specific weight 0.92 g / cm3 3. Electrical stability = 170 V 4. Information on lubricity load, based on 0.453 kg Ampere RPM 0 2.0 60 25 2.2 60 50 2.3 60 75 2.3 60 100 2.4 60 125 2.5+ 60 150 3.7 60 175 2.8 60 200 3.0 60 250 3.4 60 300 3.8 60 B. Sample of Global Chemical, Inc.

1. Rheology (at room temperature) RPM OFann 600 188.0 300 121.5 200 93.0 PV = 66.5 100 60.0 YP = 55.0 6 13.5 Gels 14.5 / 14.5 3 10.0 2. Specifics Weight = 0.92 g / cm3 3. Electrical stability = 169 V 4. Information on lubricity Load related to 0.453 kg Ampere RPM 0 1.80 60 25 1.90 60 50 2.00 60 75 2.10 60 100 2.20 60 150 2.40 60 200 2.80 60 250 3.20 60 300 3.50 60 C. Laboratory sample 1. Rheology (at room temperature) RPM OFann 600 150.0 300 90.0 200 67.0 PV = 60 100 41.0 YP = 30 6 10.0 Gels 2.5 / 8.0 3 8.0 2. Specific weight = 0.92 g / cm3 3. Electric Stability = 173 V 4. Information on lubricity Load related to 0.453 kg Ampere RPM 0 2.10 60 25 2.20 60 50 2.30 60 75 2.40 60 100 2.60 60 125 2.70 60 150 2.90 60 175 3.00 60 200 3.20 60 250 3.60 60 300 4.00 VO Finally the information for weighed cleaning and dissolving emulsions follows in the same way.

A: Berwick Oil 1 Rheology RPM 0Fann 600 163.0 300 94.0 200 70.0 PV - 69 100 44.0 YP = 25 6 11.0 gels 10/12 3 9.0 gels = 12.2 B: cleaning and dissolving emulsion based on Global Chemicals, Inc.-ol (sample B) 1. Rheology (at room temperature) RPM OFann 600 155.0 300 91.0 200 67.0 PV = 64 100 42.0 YP = 27 6 11.0 Gels 9/10 3 8.5 wt. = 12.2 The results shown in the table can be used to this effect summarize that all five samples of the emulsified cleaning and dissolving oils were satisfactory Properties exhibited. If fluctuations in properties occurred at all, lie these in the usual range.

Example II: The aim of these investigations was to weigh two plaster and To produce dissolving emulsions, once slaked lime (calcium oxide, CaO) is added and caustic soda (sodium hydroxide, NaOH) was added to the other. In detail the rheology of these samples was tested.

A cleaning and dissolving oil with a specific one served as the starting material Weight of 1.15 g / cm3 NaCl water, sodium hydroxide, calcium oxide and barite.

The usual laboratory equipment included a three-beam balance, a Hamilton Beach mixer and a spring balance.

There were samples A and B of the cleaning and solvent emulsions from the following ingredients: Sample A: 551 starting oil (0.462 bbls, bbls stands for bulk barrels), 44.5 1 NaCl water with a density of 1.154 g / cm3, 6 g NaOH 174 g barite sample B: 551 starting oil 44.5 1 NaCl water with a density of 1.154 g / cm3, 6 g CaO 174 g barite.

The components were added and mixed accordingly the information in the caustic handbook. All possible variables, such as the shear Stress, the mixing time and the like were either switched off or as far as possible kept low to only those emulsion properties to compare, which can be traced back to the different composition.

I. Sample A (measurement at room temperature, no CaO addition, instead NaOH addition as indicated).

RPM 600 300 200 100 6 3 ~ PV YP Gels "Fann 135 78 59.5 39.5 11 9.0 57 21 7.5 / 9.0 Vis (cps) 67.5 78 89.2 118.5 550 900-II. Sample B (measurement at room temperature, CaO addition as indicated).

RPM 600 300 200 100 6 3 PV YP Gels 0Fann 127 69 51 31 5.5 3.5 58 11 3.0 / 3.5 Vis (cps) 63.5 69 76.5 93 275 350-III. The density of each emulsion was 1.416 g / cm3. The samples were allowed to stand for three days to allow phase separation check. After this short storage period, the samples were tested. Thereafter the appearance of each sample was the same, that is, no separation of any of Oil or settling of barite in the sample can be detected IV. Sample A (were 22.8 g / l caustic potash (CaO) added, mixed for 45 minutes, then to room temperature cooled and the rheology determined.

Sample A with 22.8 g / l CaO: RPM 600 300 200 100 6 3 PV YP Gels 0Fann 115 69 52.5 34.5 8.5 7.5 46 23 Uts (cps) 57.5 69 78.7 103.5 425 750-The test results can be summarized in that the weighed cleaning and dissolving emulsions resistant are, regardless of whether they are caustic potash (CaO) or caustic soda (NaOH) has been added. This does not apply to uneven cleaning and solvent emulsions.

As can be seen, weighed cleaning and dissolving emulsions can either be included Quick lime or caustic soda can be produced.

If caustic soda is used instead of caustic lime, then this leads the addition of quick lime does not thicken the emulsion but actually causes it a slight dilution.

Example III: The aim of these investigations was to determine the rheology and the electrical stability of various samples of cleaning and dissolving emulsions to investigate which different emulsifiers and wetting agents in different Proportions included to determine if any differences concerning the the phase separation of the emulsions occur.

The tests were carried out using standard laboratory equipment, to which a Hamilton Beach mixer, a three-beam balance, a Fann 35-A viscometer, a Fann emulsion tester, various pipettes, other measuring instruments for measuring heard of liquids.

A cleaning and dissolving oil on the base was used as the starting material of mineral oil, a number 1 emulsifier known as Witcamide 511 Alkanolamide (also known as C-200); also the emulsifier No. 2, namely the Acintol fatty acid (also known as SF-200); and a wetting agent, namely the imidazoline compound known as Witcamide 209 (also referred to as KS-900); these materials and their essentials Components have already been listed above and were used to make a Liquid known as cleaning and dissolving oil.

Further starting materials were a) NaCl water with one density of 1.154 g / cm2, b) caustic potash (CaO) c) emulsifier (that of Diamond Shamrock under under the trade name Nopcogen 22-0).

In particular, the same machine was used in the production of all samples, same mixing procedure, rheometer and emulsion tester applied.

In addition, the mixing time was not changed for each sample, The purpose of this procedure is to exclude all such variables that could lead to wrong conclusions.

The only variables should be the various emulsifying and wetting agents, as well as their different concentrations.

After the samples had been produced and tested, they were completed for 13 days kept for a long time to investigate possible phase separation.

Sample rheology at room temperature, ° Fann at RPM 600 300 200 100 6 3 PV YP Gels A 98 56 40 22.5 3.5 2.5 42 44 2.5 / 3.0 B 156 89 65 40 9.0 7.0 67 22 7.0 / 8.0 C 172.5 99 74 46 11 8.0 73.5 22.5 8.0 / 7.5 D 185 107 79 46 8 6.0 78 29 6.0 / 6.0 E 210 124 92.5 57 13 10.0 86 38 F 224 135 99.0 58 9 6.0 89 46 6.5 / 7.0 sample viscosity at room temperature 600 300 200 100 6 3 A 49 56 60 67.5 175 250 B 78 89 97.5 120- 450 700 C 86.2 99 111 138 550 800 D 92.5 107 118.5 138 400 600 E 105.0 124 138.5 171 650 1000 F 112.0 135 148.5 174 450 600 sample portion of portion a portion of Share of share of ES starting emulsifying emulsifying wetting agent NaCl oil no.1 agent no.2 mean water in the outlet in the outlet of the density oil 1.154 q cm3 A 154 ml 1,200% 3.5% 0.52% 174 ml 200 Nopcogen 22-0 B 154 ml 0.830% 1.65% 0.52% 174 ml 110 C 154 ml 1.245% 1.65% 0.52% 174 ml 120 D 154 ml 1.660% 1.5% 0.52% 174 ml 170 D 154 ml 0.830% 2.475% 0.52% 174 ml 140 F 154 ml 1.660% 3.30% 1.04% 174 ml 180 Notes: a) 6 g caustic potash was added to each sample.

b) The standard emulsifier concentration was: emulsifier # 1 = 0.83% emulsifier # 2 = 1.65% wetting agent = 0.52%.

Curve "B" of the figure relates to a cleaning and dissolving emulsion with these Standard concentrations.

The results of these investigations can be summarized as follows: that after a storage period of 13 days only one sample (namely the Sample A with the content of Nopcogen 22-0) had an oil layer on its upper side. No phase separation whatsoever was found in any of the other samples. Furthermore has it appears as if there is an increase in the emulsifier concentration in these Cleaning and cleaning oils increase their viscosity.

Example IV: The aim of these investigations was the oil / water ratio water contaminated with cleaning and cleaning oil to its original state Adjust ratio.

It should be noted that the addition of excess water to a weighed cleaning and cleaning liquid a thickening of this liquid causes until, if necessary.

there is no more liquid at all. It was therefore assumed that the addition of oil to adjust the oil / water ratio the sludge would solidify The starting materials were: cleaning and dissolving oil with one density of 1.689 g / cm3 (O / W = 66:34) water Cleaning and dissolving oil with emulsifying agent additives Barite In detail, a one-barrel equivalent (1 barrel = 119 l) of the plaster and solvent oil with a density of 1.689 g / cm3 with 20 ml of water added until finally 129 ml of water were added. At that point it was scam the oil / water ratio 54/56. The mud fucked up considerably, formed however, still a liquid. It was the amount of oil that was needed for the adjustment of the oil / water ratio was required, calculated and added. As expected, the mud thinned. Appropriate amounts of quick lime and barite were added, to set the weight. The rheology of each sample was checked and the values compared with each other.

Base + oil + caustic potash oil + water + water + barite + oil + water 600 129 248 103 151 300 80 154 65 94 200 62 119 50 73 100 43 78 34 48 6 14 21 11 11 3 11 17 9 8 PV 49 94 38 57 YP 31 60 27 37 O / W 66/34 44/56 65/35 65/35 The results This investigation can be summarized in that an addition of oil is possible. is to dilute a cleaning and dissolving liquid contaminated with water.

The oil / water ratio is up to a value of approximately 45/55 does not matter with respect to the viscosity at which the apparent viscosity is approximately 115/125.

This applies to all density values. On the other hand, there will be persistence impaired, and with high water contents the barite can precipitate out of the solution. It is unknown, whether those specified in the lye manual Values for the oil / water ratios refer to the most stable values or not.

Example V: The aim of these investigations was to obtain a weighed plaster and Produce dissolving emulsion, and their rheological properties before and after Check the addition of special emulsifying agents.

The investigation was carried out using standard laboratory equipment, including mixing devices, Fann 35 A viscometers and the like belonged. Plaster and Solvent oil, quick lime, caustic soda, emulsifiers and wetting agents supplied by Global Chemical Company.

In detail, a weighed cleaning and dissolving emulsion was produced, determined their rheology, then doubled the emulsifier concentration and checked whether the rheology value increases.

1. Rheology for standard emulsifier concentration: 600 300 200 100 6 3 PV YP Gels 207 128 99 66.5 19 15 79 49 14/1 2nd density = 1.880 g / cm3 3rd oil / water ratio = 70/30 4. After stirring for 30 minutes, the concentration was at Emulsifier doubled. There was no apparent increase in viscosity on. Then additional quick lime was added and continued to occur with continued Stir no increase in viscosity. Eventually a small amount of caustic soda was added added (approximately 3.8 g / l) and within a few minutes there was a noticeable increase in viscosity on. The sample was allowed to cool to room temperature and then the rheology was checked measured.

5. Rheology with additional emulsifier and caustic soda: 600 300 200 100 6 3 PV YP Gels 264 156 115 70 14 10 108 48 13/15 The results of these investigations can be summarized in that to increase the viscosity a weighed cleaning and dissolving emulsion do not require the addition of additional emulsifying agent is effective, however, an addition of a small amount of caustic soda is considerable Causes thickening.

Example VI: The aim of this study was to determine the properties of the sludge to check, especially its lubricity with and without the addition of cleaning and rinsing liquid; The material of a 2-R drilling rig No. 2 serves as the mud sample.

The investigation was carried out using standard laboratory equipment, including included mixers, an API filter press, a HPHT filter press, a Fann 35-A viscometer, an E.P. - Lubricity tester, a Fann 50 viscometer etc.

The starting materials were drilling mud from a 2-R drilling rig No. 2 as well as non-weighed cleaning and rinsing liquids.

Specifically, one obtained under the above conditions was obtained Drilling mud examined for the following properties: a) Rheology and gel formation, b) API W, L. and HPHT W.L.

c) Fann 50 d) Retort analysis e) Lubricating behavior of another sample 4% by volume of unweighed cleaning and rinsing fluid were added to this drilling mud and repeated the examinations given above, with the exception of the Combustion residue.

The following results were obtained: I. Drilling mud (without the addition of cleaning and rinsing liquid) a) Rheology RPM OFann 600 139.0 PV = 62 cps 300 77.0 YP = 15/100 ft.2 200 54.0 density = 2.177 g / cm3 100 30.0 gels 4.0 / 12.5 6 3.5 3 2.0 b) API W.L. = 0.8 ml c) filter cake thickness = 1.6 mm (good texture) d) Retort analysis: 53% water, 38% solids, 9% oil.

e) HPHT at 1490 C and 351 N / cm '= 6.4 ml f) Lubricating behavior torque in N. cm Ampere RPM 0 1.9 60 575 2.4 60 1150 2.9 60 1725 3.8 60 II. Test results with regard to the drilling mud with an addition of 4% cleaning and rinsing liquid.

a) Rheology RPM OFann 600 138.0 PV = 62-cps 300 77.0 YP = 15/100 ft2 200 55.0 density = 2.177 g / cm3 100 31.0 gels 4.0 / 12.5 6 4.5 3 3.0 b) API W.L. = 0.3 ml c) filter cake thickness less than 1.6 mm d) HPHT at 1490 C and 351 N = 6.4 mm e) Lubricating behavior (after rolling for one night at 66 ° C) torque in N. cm amps RPM 0 1.7 60 575 2.5 60 1150 3.0 60 1752 3.4 The results of this Investigations can be summarized in that the rheological properties and the Temperature resistance through the addition of plaster and Rinsing liquid obviously not be affected.

The lubricating property of the mud especially at torque of 1725 N x cm are improved by at least 10%.

With the following examples, the invention in terms of their Effects on living organisms explained The Keely standard fish kill test was used as the test method (to threespine stickleback, Gasterosteus aculeatus).

Example - VII: The drilling mud additive made according to the invention was placed in a glass vessel in which there was seawater with the organisms. The sea water was at a temperature in the range of 19.5 to 19.8 ° C without aeration held.

The results listed in the table below were achieved here. Biological duration dilution Test conditions (h) Control 20,000 A 20,000 B No.% No.% No.% Survivors Organisms start 10 100 - 10 100 10 100 24 10 100 10 100 10 100 ~ 48 10 100 10 100 10 100 72 10 100 10 100 10 100 96 10 100 10 100 10 100 Start 7.5 7.5 7.5 Solved 24 7.5 7.3 7.2 Oxygen 48 7.2 6.9 7.0 72 7.1 6.5 6.6 96 6.9 6.3 6.4 Start 8.1 8 8.1 8.1 24 8.2 8.0 8.1 EH value 48 8.2 8.0 8.0 72 8.2 8.0 8.0 96 8.2 8.0 8.1 RESULT: 96 h TLm *> 20,000 ppm All organisms survived the 96 hour test, which indicates that the product according to the invention is environmentally friendly and is non-toxic with respect to living marine organisms, provided that a corresponding drilling mud would be flushed into the sea water in the event of an accident or the like.

Example VIII: The experiment according to Example VII repeated except that No. 2 diesel oil was added to the seawater.

The results listed in the table below were achieved: Dilution ppm Biological duration control 20,000 A 20,000 B Test conditions (h) No.% No.% No. Start 10 100 10 100 10 100 Survivors 24 10 100 0 0 ~ 0 O 48 10 100 0 0 0 Organisms 72 10 100 0 0 0 0 96 10 100 0 0 0 0 Start 6.8 6.8 6.8 Solved 24 6 6 6 7 6.5 Oxygen 48 6.4 --- --- 72 6.0 --- --- 96 5.9 --- --- Start 8.1 8.1 8.1 24 8.1 8.0 8.1 pT value 48 8.0 - - 72 8.0 --- --- RESULT: 96 h TLm *> 20,000 ppm After a test duration of only 24 hours, all organisms were killed, which indicates that diesel oil No. 2 is not a suitable additive for drilling mud.

Although the present invention is based on particular embodiments has been explained, those skilled in the art can make numerous modifications and changes to undertake without deviating from the essential essence of the invention.

Such modifications and equivalents are therefore also intended to be used by of the present invention.

Claims (7)

DANA E. LARSCN 204 Belle Chasse Lafayette, Louisiana 7050J V. St. A. RDNNIE J. tflON 200 North Michot Street Lafayette, Louisiana 70508 V. St. A. PATENT CLAIMS 1. Liquid concentrate for mixing with a biodegradable, environmentally friendly oil, a liquid to dissolve a to provide stuck pipe within a borehole, d u r c h g e k e n n -z e i c h n. e t that the liquid concentrate essentially consists of 12.5 to 42.5% by volume Witcamide 551, 40.0 to 70.0% by volume Acintol FA-1 and 2.5 up to 32.5% by volume Witcamine 209. 2. Liquid concentrate according to claim 1, d a d u r c h g e k e n It is noted that the concentrate contains an emulsifying agent such as calcium oxide and / or Bentonite is added. 3. Liquid concentrate according to claim 1 or 2, d a -d u r c h g I do not know that the concentrate with 100 to 215 1 biodegradable, environmentally friendly oil is mixed. 4. liquid concentrate according to any one of claims 1 to 4, d a d It is not stated that about 3 vol 97% by volume of biodegradable, environmentally friendly oil are mixed. 5. liquid concentrate according to any one of claims 1 to 4, d a d Acknowledgment that the biodegradable, environmentally friendly oil is a vegetable oil or a mineral oil. 6. liquid concentrate according to any one of claims 1 to 5, d a d Acknowledgments that the biodegradable, environmentally friendly oil white mineral oil, peanut oil, soybean oil, cotton oil, corn oil, rice oil and / or safflower oil is. 7. liquid concentrate according to any one of claims 1 to 6, d a d u r c h g e k e nn n n z e i c h.n e t that the mixture of the concentrate and the water is added to biodegradable, environmentally friendly oil.