A shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine

A molecular weight, tertiary amine type technology, used in the preparation of amino compounds from amines, organic chemistry, drilling compositions, etc., can solve the problems of entanglement, uneven coating, inhibition performance limitation, repeated adsorption, etc. The effect of wall instability, improvement of inhibition performance, and easy availability of raw materials

Active Publication Date: 2021-02-02
SOUTHWEST PETROLEUM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The polyamine high-performance drilling fluid system is a new type of environmentally friendly drilling fluid that meets the various requirements of the drilling process and is considered to be a substitute for oil-based drilling fluid. Research at home and abroad shows that polyamine inhibitors with amine monomers as the main raw materials It has been widely used in water-based drilling fluid systems and has achieved good inhibitory effects, but most of the polyamine inhibitors studied and applied at present are linear structures
However, high-molecular-weight linear polyamine inhibitors are usually in the configuration of random coils after being dissolved in water, so that when they interact with shale clay, the entanglement and coating on the clay are uneven, which is likely to cause repeated adsorption or no adsorption
At the same time, the active groups generally exist at both ends of the molecular chain, so that a molecular chain usually only contains two active groups. In this case, the effect of linear polyamine inhibitors often has certain limitations.
And it is difficult for high molecular weight polyamine compounds to enter the clay layer, so that its inhibitory performance is limited

Method used

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  • A shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine
  • A shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine
  • A shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine

Examples

Experimental program
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Effect test

Embodiment 1

[0035] Using diethylenetriamine and dimethylallylamine as raw materials, the ultra-low molecular weight branched tertiary amine polyamine is prepared by a step-by-step synthesis method, and the specific steps are as follows:

[0036] (1) Synthesis of G1 ultra-low molecular weight branched tertiary amine polyamine: Accurately weigh 0.1 mole of diethylenetriamine and 0.1 mole of dimethylallylamine and dissolve them in 80 mL of anhydrous methanol respectively, and diethylenetriamine Transfer the methanol solution of dimethyl allylamine to a round bottom flask, and slowly add the methanol solution of dimethylallylamine into the round bottom flask with a constant pressure separatory funnel at 25°C and stir. After the dropwise addition, heat up Heat to reflux for 8 hours at 95°C. After the reaction, use a rotary evaporator to evaporate the solvent at 105°C and an absolute vacuum of less than 3000Pa to obtain G1 ultra-low molecular weight branched tertiary amine polyamine. The molecu...

Embodiment 2

[0047] Using diethylenetriamine and dimethylallylamine as raw materials, a one-pot method is used to prepare ultra-low molecular weight branched tertiary amine polyamines. The specific steps are as follows

[0048] Accurately weigh diethylenetriamine and dimethylallyl with a molar ratio of 1:5 and dissolve them in 100mL of anhydrous methanol respectively, and diethylenetriamine is 0.1 mole, and the dimethyl The methanol solution of allylamine was added dropwise to the methanol solution of diethylenetriamine. After the dropwise addition, the temperature was raised to 100°C, and the reaction was heated under reflux for 12 hours. Distill under reduced pressure and evaporate the solvent to obtain G5 ultra-low molecular weight branched tertiary amine polyamine. Molecular formula of G5 ultra-low molecular weight branched tertiary amine polyamine: Molecular formula of G5 ultra-low molecular weight branched tertiary amine polyamine: C 29 h 68 N 8 , exact molecular weight: 528.557, ...

Embodiment 3

[0051] Using ethylenediamine and dimethylallylamine as raw materials, the ultra-low molecular weight branched tertiary amine polyamine is prepared by a step-by-step synthesis method, and the specific steps are as follows:

[0052] (1) Synthesis of G1 ultra-low molecular weight branched tertiary amine polyamine: Take 0.1 mole of ethylenediamine and 0.1 mole of dimethylallylamine and dissolve them in 80 mL of anhydrous methanol respectively, transfer the methanol solution of ethylenediamine to Add the methanol solution of dimethylallylamine to the round bottom flask at 25°C using a constant pressure separatory funnel slowly into the round bottom flask and stir. After the dropwise addition, heat up to 95°C. Heat to reflux for 8 hours. After the reaction is completed, use a rotary evaporator to evaporate the solvent at 105° C. and an absolute vacuum of less than 3000 Pa to obtain G1 ultra-low molecular weight branched tertiary amine polyamine. The molecular formula of G1 ultra-low...

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PUM

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Abstract

A shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine, prepared by mixing ultra-low molecular weight branched tertiary amine polyamine and water in proportion, the ultra-low molecular weight branched tertiary Amine-type polyamines are prepared by stepwise synthesis or one-pot synthesis of polyamine compounds and tertiary amine compounds containing ethylenic bonds. Among them, the polyamine compounds are alkyl diamines, polyethylene polyamines and low molecular weight poly One of the amines. The ultra-low molecular weight branched tertiary amine polyamine provided by the invention is non-toxic and harmless, has a simple synthesis method, high yield, simple and easy-to-obtain raw materials, is suitable for large-scale industrial production, and is formulated as a shale intercalation inhibitor Compared with similar products, the suppression effect has been significantly improved, and it can effectively reduce the occurrence probability of wellbore instability due to shale hydration dispersion, fully meeting the drilling needs of various complex well conditions.

Description

technical field [0001] The invention belongs to the technical field of oil and gas field drilling, and in particular relates to a shale intercalation inhibitor made of ultra-low molecular weight branched tertiary amine polyamine. Background technique [0002] Well wall instability often leads to downhole complex accidents such as well wall collapse, diameter shrinkage, and pipe sticking, which increases drilling time and drilling costs. 75% of wellbore instability mainly occurs in shale formations, especially water-sensitive formations. The content of clay minerals in shale formations is high, the horizontal section of shale gas horizontal wells is long, the contact time between drilling fluid and formation is long, shale hydration is more serious, and wellbore instability is more prominent. Although oil-based drilling fluid has obvious advantages in wellbore stability, lubrication and anti-sticking, inhibition of shale hydration expansion, formation slurrying and rapid dri...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09K8/035C07C209/68C07C211/14
Inventor 谢刚肖玉容邓明毅黄丹超罗平亚江林峰聂梦圆
Owner SOUTHWEST PETROLEUM UNIV
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