TH3759B - Cement composition that was delayed to slow formation and the method of grouting cement in the pond. - Google Patents

Abstract

To have a cement component that has slowed its formation for grouting over one or more areas of the pond. That has developed an increased compressive strength after being put into place or several areas The cement component consists of hydraulic cement. Sufficient water to create a pumpable slurry. One or more formation retardants And slow-retardants containing one or more titanium chelates, a cement grouting method using this component is also available.

Claims (5)

1. A cement component that has been retarded to form slower for all-over cement grouting. Or several areas in the pond that have developed an increased compressive strength after being put all over That area or several areas Containing Hydraulic cement Sufficient water to form a pumpable slurry that forms a hardened mass. One or more retardants contained in the slurry in sufficient quantities to delay the formation of the slurry until after the slurry was inserted. And the slow neutralization contained in such slurry in sufficient quantities to make one or more of the said Go away and increase the development of the slurry's compressive strength after having put the slurry over the area or several of the above selected from a group consisting of: triethanolamine, titanium. Delates expressed by the formula (chemical formula), modifiers of such chelates where the -C3H7 group is replaced by another alkyl or aryl group, or the -OC3H7 group is replaced by a hydroxide group. Or the halogen atom Or modified chelates that are partially polymerized Such chelate modifiers where ligandriethanol Lamine is replaced by (chemical formula) where R1 is an alkyl or hydroxylkyl group hydrogen and R2 is ethylene, trimethylene or isopropylene, or R4 (R5) N-R3-N (R6) (R7), where R3 is ethylene, trimethylene or isopropylene, and R4, R5, R6, and R7 are individual L-group hydrogen. Hydroxyl alkyl group Or aminoalkyl group, with the limitation that there is at least one hydroxylkyl group And other alkalamine alcans and modifiers of the aforementioned delates, where the delates contain ligands of alkalamine in the range of 1 to 4 per titanium atom. Right number 1 where such amphibians are selected from the group that includes Alkan Alamine, Titanium Delate And the delate mixtures represented by the formula (chemical formula) where R1 is ethylene or isopropylene 3. Component of claim No. 1, where the amphibian is isopo. Propoxipetanium Triethanolamine Delate 4. Components of claim No. 1 where one or more of the aforementioned modifiers are selected from a group containing lignosulfonate salts. Organic acids and their salts Mixtures of the above compounds And one or more of the above mentioned compounds are mixed with one or more soluble borates. It is present in such components in amounts in the range from approximately 0.1% to approximately 5.0% by weight of dry cement there. 5. Composition of claim No. 4, where the slow retardant, titanium The aforementioned delates, or many of the aforementioned amphibians, are present in the components in quantities ranging from approximately 0.05% to approximately 1.5% by weight of dry cement in place. The following characteristics include a sufficient amount of titanium interlinkable material therein to provide thysopropic and gel-strength development when cross-linked to the component. Selected from a group containing cellulose derivatives Polyvinyl alcohol Homopolymer copolymer and AMPS homopolymer (2-acrylamco-2-methyltropensulfonic acid) sodium vinylsulfonate acrylamide n, n-dimethylacyl Rilamide Acrylic acids and their mixtures 7.Composition of claim No. 6, where such titanium cross-linked material is contained in such components in amounts ranging from approximately 0.1. % To approximately 2.0% by weight of dry cement in it And the slow retardants such as titanium delates or several such amphibians present in the components in the amount of approximately 0.05% to approximately 1.5% by weight of dry cement there.8. Cement components that have delayed the formation Down with thysotropic properties for injecting cement over one or more areas in wells where gelling and increased compressive strength are developed. After inserting it into that area Containing Hydraulic cement Sufficient water to produce a pumpable slurry. Which will form a solid mass A formation retard for slowing the formation of slurry. Selected from a group containing lignosulfonate salts Organic acids and their salts Mixtures of the above-mentioned compounds and one or more of the above-mentioned compounds mixed with one or more water-soluble borates contained in those components in amounts in Range from approx. 0.1% to approx. 5.0% by weight of dry cement. Cross-linked material for thysotropic properties and gel strength development. When it is cross-linked to the component selected from the carboxymethyl hydroxyethylcellulose group. Hydroxyethyl cellulose The copolymers of 2-acrylamido-2-methyl propane sulfonic acid and N, N-Diethylacrylamide and its metabolites. Mixtures of these compounds present in such components in amounts ranging from approximately 0.1% to approximately 2.0% by weight of dry cement and isotropoxitothenium triethanolamine dilate. For the cross-linking of such cross-linked materials And makes the formation retarder neutral After putting the above ingredients around the area Or several such areas, thus providing the gel strength and increasing the compressive strength development of the components contained in the components in quantities in the range from approximately 0.5% to approximately 1.5% by weight of dry cement in place 9. Components of claim No. 8, where the formation moderator contains calcium lignosulfonate. And potassium pentaborate tetrahydrate in the ratio by weight 1: 1 and is present in the above components in amounts that range from approximately 0.5% to approximately 3.0% by weight of dry cement. The above cross-linked material is a carboxymethyl hydroxyethylamine. Cellulose and is contained in the above components in quantities ranging from approximately 0.2% to approximately 0.6% by weight of dry cement in it. And the aforementioned delates are contained in the components in quantities that range from approximately 0.1% to approximately 0.5% by weight of dry cement in the area 1 0. Method of grouting cement in the underground area that was inserted by the well. The method consists of a process of producing a slower, retarded, thysopropic cement that can be pumped. That has improved compressive strength after being put into the area Or many such areas It is composed of hydraulic cement, water, one or more retardants contained in the slurry in sufficient quantities to delay the formation of the slurry until the time of grouting. Went down and the material was The crosslinkable material contained in such slurry is sufficient to provide thysopropic properties and gel strength development when crosslinked to the component, and the moderating agent is The crosslinking agent is contained in such slurry in sufficient quantities to cross-link the crosslinked material and to neutralize the formation retarding agent after application. Put the slurry in the area. Such crosslinking modulators are selected from the group containing alkyl-alamine, titanium delate. And a delate mixture represented by the formula (chemical formula), where R1 is ethylene or isopropylene. Pumping the slurry cement into the area through the said well and allowing the slurry cement to form there.1 1. Method of Clause 10, where In which one or more such modifiers were chosen from a group containing lignosulfonate salts. Organic acids and their salts Mixtures of the above compounds And one or more of the above compounds mixed with one or more soluble borates. It is present in such components in quantities that range from approximately 0.1% to approximately 5.0% by weight of dry cement in there. Choose from a group containing carboxymethylhydroxyethylcellulose. Hydroxyethylcellulose copolymers of 2-acrylamidone-2-ethyl propane sulfonic acid and N, N-Gyethyl. Acrylamides and their mixtures contained in the components in quantities ranging from approximately 0.1% to approximately 2.0% by weight of dry cement in there 1 3. Method of claim Article 12 where R1 of such titanium delate is ethylene. And such titanium delates It is present in the components in quantities ranging from approximately 0.1% to approximately 0.5% by weight of dry cement in there.1 4. In grouting cement as a sealant in wells using slurry. The slower formation of hydraulic cement in water was slowed down where the slurry cement was met with a temperature difference after loading up to approximately 50F. Add effective amounts of slow neutralizing agent to slurry cement to increase and achieve consistent compressive strength development of the slurry after it is added. Slow amphibians They are selected from a group containing alkyl alamine, titanium delate. And the aforementioned delate mixture expressed by the formula (chemical formula) where R1 is ethylene or isotropylene 1 5. Method of claim number 14, where the alkalamine The titanium delate or the delate mixture is added to the slurry in an amount in the range from approximately 0.05 to approximately 1.5% by the weight of dry cement there.1 6. Method of claim Article 15 where the slurry cement is dampened by the inclusion of a retarder in which the retarder contains calcium lignosulfonate. And potassium pentaborate at a 1: 1 weight ratio contained in the slurry in amounts in the range from approximately 0.1% to approximately 5.0% by weight of dry cement there.1 7. Method of claim 16, where such slow amphibians are isopotoxin. Titanium triethanolamine and was added to the slurry in amounts in the range from approximately 0.1% to approximately 0.5% by weight of dry cement in there. 1 8. Method of grouting cement at the site. Underground that was inserted by a borehole Method consists of The presence of hydraulic cement slurry in water that has been slowed to form. Slow mixing of damping agents In order to increase the compressive strength after being added to the slurry cement, the quantity is applied. Slow amphibians are selected from a group consisting of: triethanolamine, titanium delate represented by formula one (chemical formula), where R is an alkyl or aryl group (chemical formula), of which R1 is OC3H7, OH or partially polymerized halogenated chelates and chelates formed by the diryethanolamine delate. And to put the slurry cement over the said area or several such areas by the said borehole and allowing the slurry cement to form a solid mass within it with Increased compressive strength 1 9. Method of claim No. 18, where the slow retardant is present in the component in quantities in the range from approximately 0.05% to approximately 1.5% by weight of cement. 2 0. Method for compacting cement in the underground area that was inserted by the borehole. Which method consists of Slowing the formation of hydraulic cement slurry in water The mixing of repetitive damping agents in effective quantities of the slurry cement. To improve the development of compressive strength after it has been put on Duplicate retardants are selected from a group consisting of: titanium delate expressed by the formula (chemical formula) where R1 is an alkyl hydrogen group or a hydroxylkyl group, R2 is ethylene trimethoxyethanol. Lean or isopropylene and R3 is an alkyl or aryl group (chemical formula), where R1 is a hydrogen, an alkyl group or a hydroxylkyl group, R2 is an ethylene tri. Methylene or isopropylene and R3 is OC3H7, OH or halogen atom. And putting the said cement slurry into the area or several areas by the said drilling hole Then let the slurry cement form a solid mass there with 2 increased compressive strength. 1. Method of claim No. 20, in which slow amphibians are contained in the components in quantities ranging from approximately 0.05% to approximately 1.5% by weight of cement in them 2. 2. Method for compacting cement in the underground area that has been inserted by the borehole. Which method consists of Slowing the formation of hydraulic cement slurry in water Mixing of effective amounts of slow neutralizing agent with slurry cement. To increase the development of the compressive strength of cement Slow amphibians are selected from a group consisting of: triethanolamine, titanium delate, represented by the formula (chemical formula), where R is an oxylkyl group. The oxy-acid group, OH or halogen, R3 is ethylene, chimethylene, or hypopropylene, R4 and R5 are hydrogen alkyl groups, hydroxylkyl groups or The aminoalkyl group R6 is an oxylkyl group, and R7 is a hydrogen alkyl group, a hydroxylkyl group or an aminoalkyl group, R7 is a hydrogen L group. Hydroxylkyl group Or aminoalkyl groups Then put the said cement slurry over the area or several areas through the drilling hole. It then allows the slurry cement to form a solid mass there with the increased compressive strength 2. 3. Method of claim 22, in which the slow amphibian is contained in the component in amounts in the range from approximately 0.05% to approximately 1.5 by weight of dry cement in there 2. 4. Method for compacting cement consists of Slowing the formation of hydraulic cement slurry in water Mixing of effective amounts of slow neutralizing agent with the slurry cement improves the compressive strength of the cement after compression. Slow amphibians, select from a group that includes Alkan Alamine, Titanium Delate And the aforementioned delate mixtures represented by the formula (chemical formula) where R1 is ethylene or isopropylene. Putting the slurry cement into the desired location and allowing it to form a solid mass with increased compressive strength 2. 5. Method of claim No. 24, in which the slow retardant is present in the component in amounts in the range from approximately 0.05% to approximately 1.5% by weight of dry mortar there