BE1027934B1 - Method for preparing applied multilayer composite network structure permeability enhancer for seam water injection - Google Patents

Abstract

The present invention, which belongs to the field of mine seam water injection dust reduction technology, discloses a multilayer composite network structure permeability enhancer applied for seam water injection and a method of preparation for it. The multi-layer composite network structure permeability enhancer applied for seam water injection is composed by mass percentage of 1%-2% chitosan, 2.5%-4.5% methyl methacrylate, 1%-3% sodium salicylate, 0.1%-0.3% initiator, 0.08%-0.1% crosslinker, 0.0-0.5% impregnant, 0.02%-0.04% calcium chloride and water; The initiator is cerium ammonium nitrate. The impregnant is octadecyldimethylbenzylammonium chloride and calcium chloride. The present invention provides a multi-layered composite network structure permeability enhancer applied for vein water injection and a preparation method thereof, which can effectively penetrate into veins and humidify them, reduce clearance of dust during coal mining and to prevent the generation of large amounts of dust in size.

Description

Process for the preparation of applied malticlayer composite network structure permeability enhancer for seam water injection Field of Technology The present invention, which belongs to the field of mine, particularly relates to a multilayer composite network structure permeability enhancer applied for seam water injection.

Background technology In the present circumstances: As one of the main sources of energy in my country, coal generates a large amount of dust during its extraction, transport and storage.

Especially in the mining process, a large amount of dust is generated on the working face, which seriously affects the environment of the working face and causes mechanical damage.

In addition, the dust is very likely to spread to different places on the roadway, causing serious irreversible pneumoconioses and other respiratory diseases, etc. According to statistics, occupational diseases in my country are mainly dominated by dust and dust. pneumoconioses, which represent 71% of all occupational diseases, the most serious preumoconioses with coal mine pueumoconosis and pulmonary silicosis; At the same time, the dust enters the inside of the instrument, azgravates the internal wear of the precision instrument, affects the precision of its use and reduces its service life, Moreover, when the concentration of dust in the air reaches a certain value, it is likely to cause dust explosions, which leads to considerable losses in the production of the mine.

Prior to coal mining, the seam water injection process is generally applied to pre-wet the seam to reduce the amount of coal dust produced during mining. However, the effectiveness of simple wetting of the seam with water ost very weak, because the water is relatively not very wettable and the coal is hydrophobic.

Therefore, it will not only achieve the purpose of dust reduction, but also cause great waste of water resources.

Additionally, the combination of water and dust is fluid, which also leads to emission issues and can cause Veen pollution.

Through the above analysis, the problems and shortcomings of the existing techniques are as follows. the existing method of wetting the seam with water is not efficient enough, does not make it possible to effectively reduce the dust, which also results in a considerable waste of water resources.

The difficulty in solving the above problems and defects is [a]following: In view of injecting water into veins, water is the most common wetting solution because of its advantages such as wide availability and ease of storage. However, most of the carbons are hydrophobic and have low affinity with water, resulting in insufficient water wettability and waste of water resources, ultimately the adhesion of carbon dust is poor. during coal mining, which does not promote settling, making dust reduction less effective.

The importance of solving the problems and defects mentioned above is as follows: it is beneficial to improve the efficiency of water injection into the vein, so that the vein can be better monetized, contributing thereby reducing the amount of dust produced during coal mining. D is more favorable to the conservation of Ean resources.

Contents of the Invention In response to the problems with existing techniques, the present invention provides a multilayer composite network structure permeability enhancer applied for seam water injection.

The present invention is realized in this way, a multilayer composite network structure permeability enhancer applied for seam water injection, the mass percentage of it is as follows: 196-2% chitosan, 2.5 %-4 5% Methyl Methacrylate, 176-3% Sodom Salicylate, 0.174-0.3% Initiator, 0.08% 0.1% Crosslinker, 0.0-0.5% Impregnant, 0.02%-0 04% of calcium chloride and water, The water is completed at the percentage of 100% For the impregnant equal to 0, 11 is a question of examining the different performance indices of a permeability enhancer without impregnant and to determine whether the permeability of a permeability enhancer without impregnant is greater than that of water.

Further, the initiator is cerium ammomuum mtrate.

In addition, the impregnant is octadeyl dimethyl benzyl ammonium chloride and calcium chloride.

In addition, the optimization ratio of multi-layer composite network structure permeability enhancer applied for iniection of seam water in 400 mil of water is as follows: chitosan: methyl methacrylate: sodium saticylai = 1: 2:1, rutrail of ceriur and ammonium: water = 11500, octadecyldimethylbenzylammoniun chloride: calcium chloride = 1:4.

Another object of the invention is to provide a method for preparing the applied multi-layer composite network structure permeability enhancer for seam water injection, the steps are as follows: three necks containing deionized water and infuse arot therein, gelatinize and react to obtain the first solution: Step II cool the first solution after gelatinization and add methyl methacrylate and sodium salteylats respectively, when the methacrylate methyl chloride and sodium salicylate are completely dissolved, add cerium and ammonium mtrate and heat in a water bath to obtain a second solution, Step IM, cool the second solution, add decoctadeyl dimethyl benzyl ammonium chloride respectively and calcium chloride, and continue working and heating in a water bath to obtain a third solution: Stage TV, the obtained third solution was processed by microwave vibration, and the products were synthesized and extracted to obtain the applied multilayer composite network structure permeability enhancer for seam water injection.

In addition, the gelatinization temperature is 80°C in step 1 In addition, the first solution obtained after reaction includes a reaction temperature of 45°C and a reaction time of 1 hour in step LL In addition, cooling the first solution after gelatinization includes cooling the first solution to 30°C-70°C after gelatinization; wherein the optimization cooling temperature is 60°C in step IT. In addition, the heating time of the water bath is 1 hour in step IL.

Also, the heating time of the water bath is Ih in step 57,

In addition, the processing of the third solution obtained by microwave vibration includes the third solution is extracted by microwave vibration using a utrasonic extractor in the PV step.

By combining all the above technical solutions, the advantages and positive effects of the invention are as follows: the parameters of the present invention are the optimum data obtained through a large number of experimental operations.

The permeability enhancer prepared with these parameters has the best permeation effect and the best rate of weight gain.

The present invention provides a process for the preparation of a multilayer composite network structure permeability enhancer applied for vein water injection, to effectively penetrate and wetting the veins and hunudify them, reduce the undercut of dust during coal mining and to prevent the generation of large amounts of dust at the face.

Table S: Comparison between water and the permeability enhancer of the invention The present invention uses natural bio-based materials as a skeleton, grafts the micro-molecular materials under ultrasomal vibration conditions and modifies the molecular structure by means of ionic micelles , which improves the permeability and wettability of the permeability enhancer, promotes wetting of the vein, and guarantees a certain low viscosity to facilitate the capture and adsorption of dust. The present invention first uses radical pepperization technology chemical to modify the structure of bio-based macromolecules, then by the ionic micellar action, to insert linear micelles on the modified polymer with a reticular structure, in order to obtain a permeability enhancer of multilayer composite network structure.

The present invention adopts the phacoemulsion crosslinking method for the preparation of an enrichment agent. The impregnant of the present invention is octadecyl dimethyl benzy chloride! ammonium (cationic surfactant) and calcium chloride, which monthly promote coagulation to form a low viscosity permeability enhancer to promote permeability.

The present invention uses chitosan, methyl methacrylate and sodium saheylate for crosslinking and graft copolymerization, then adds surfactant ion micelles to improve product performance, and finally generates a dust canceling agent. fluid The permeability enhancer has good wetting characteristics. When water is injected into the vein, it can use its own low viscosity to promote space permeation, in addition, the permeability enhancer has excellent wettability, which can further wet the vein, and the permeability enhancer permeability contains a large number of carboxyl, hydroxyl and 5 amino groups, these are all hydrophilic functional groups which can attract water molecules and promote the adsorption of water molecules with carbon, when the carbon is mined, is permeability enhancer which envelops dust absorbs dust under the synergistic effect of its own cohesion and intermolecular force, which is beneficial to promote dust deposition.

Notes to the accompanying drawings In order to explain more clearly the technical solutions of the application examples of the present application, there follows a brief description of the diagrams which are to be used in the application examples, and it is obvious that the diagrams described below are only some examples of application of the present application, other diagrams can be obtained without creative effort for the average technician in this field.

The figure ! shows a schematic diagram of the process for preparing the multi-layer composite network structure permeability enhancer applied for the injection of road water provided by the application examples of the present invention.

FIG. 2 represents a diagram of molecular synthesis of the permeability enhancer provided by the examples of application of the present invention.

Figure 3 shows the diagram of a process for preparing the multilayer composite network structure permeability enhancer provided by the application examples of the present invention, Made of embodiment In order to clarify the objectives, technical solutions and advantages of the invention, a more detailed description of the invention is given below in combination with examples. It should be understood that the examples described herein serve only to interpret the invention and not to guide it.

In response to the problems by the existing techniques, the present invention provides a multilayer composite network structure permeability enhancer applied for seam water injection, a detailed description of the invention is given below, in combination with the attached diagram.

The application examples of the present invention is carried out in this way, a multi-layer composite network structure permeability enhancer applied for seam water injection, the mass percentage of it is as follows: 1% -2% chitosan, 2.5%-4.5% methyl methacrylate, 196-3% sodmm sahevlate, 0 174-03% initiator, 098%-0.1% crosslinker, CC-05% impregnant, 0.02%-0.04% calcium chloride and water,The initiator is cenum and ammonium nitrate and water: The ean cat completed at the percentage of 100%, The impregnant described is the octadeyldimethylbenzylanumonium chloride and calcium chloride The described initiator is cerium ammonium nitrate.

The optimization ratio of multilayer composite network structure permeability enhancer applied for injecting seam water into 400 mi of water is as follows: chitosan: methyl methacrylate: sodium salicylate = 1:2:1 , cerium ammonium nitrate: water = 11500, octadecyldimethylbenzylammoniun chloride: calcium chloride = 1:4.

As shown in Figs. 1 to 3, the preparation method of applied multilayer composite network structure permeability enhancer for vein water injection is as follows: three necks containing deionized water and infuse it with arot, gelatinize at the temperature of SU°C, and react to obtain the first solution; 9102, cool the first solution to the temperature of 30-70°C after gelatinization and add methyl methacrylate and sodium salicylate respectively, when methyl methacrylate and sodium salioylate are completely dissolved, taste cerium nitrate and of ammonium and heat in a water bath for Ih to obtain a second solution; 5103, cool the second solution, respectively add decoctadecy chloride! dimethyl benzyl ammonium and calcium chloride, and continue to act and heat in a water bath for Ih to obtain a third solution:

9104, the third solution was extracted using a microwave vibration ultrasonic extractor to obtain the applied multilayer composite network structure permeability enhancer for seam water injection.

The first solution obtained after reaction comprises a reaction temperature of 45° C. and a reaction time of 1 h in the SIGI step.

The method of preparation of multilayer composite network structure permeability enhancer applied for coal seam water injection is as follows: Weigh 4g of chtosan into a three-necked flask filled with 400 ml of distilled water, v blow in nitrogen, gelatinize at the temperature of 80°C, After gelatinization, set the temperature to 60°C, lay down 8g of methyl methacrylate and 4g of sodium salicylate respectively, and add them in order after 5 minutes apart, once they are fully dissolved, add 0.42 of cerium ammommum nitrate and keep heating the water bath for Ih, when cooled to room temperature, add 0.52 of octadecyl dimethyl benzyl chloride (ammonium and 2.02 calcium chloride, and the product is syothetized and extracted by microwave vibration process, The multi-layer composite network structure permeability enhancer applied for seam water imection is ob tenuous.

The technical scheme of the invention is described in more detail below, in combination with specific examples.

Application example | Put 4g of chtiosan in a three-necked flask filled with 400ml of distilled water, Ÿ blow in nitrogen, gelatinize at the temperature of 80°C, After celatimization, set the temperature to 60°C, weigh 8g respectively of methyl methacrylate and 4g of sodium salicylate and add them in order after 5 minutes apart, once they are completely dissolved, add 0.42 of cerium ammonium nitrate and keep heating the water bath for Ih. When cooled to room temperature, add 0.5% octadecyi dimethyl benzyl ammonium chloride and 2.02 calcium chloride, and the product is synthesized or extracted by the microwave vibration process. Finally, test relative performance.

Application example 2

Weigh 4g of chitosan in a three-necked flask filled with 400ml of distilled water, blow nitrogen into it, gelatinize at the temperature of 80°C, After gelatinization, set the temperature to 40°C, weigh &g respectively of methyl methacrylate and 4g of sodium salicyate and add them in order after 5 minutes interval, once they are completely dissolved, add 4g of cerium ammonium nitrate and keep heating the water bath for Ih When it is cooled to room temperature, add 0.59 octadecyl dimethyl benzyl chloride of ammoninm and 2.0g of calcium chloride, and the product is synthesized and extracted by the method of microwave vibration, Finally, test the relative performance, Application example 3 Weigh 4g of clutosan into a three-necked flask filled with 400ml of distilled water, blow nitrogen into it, celatinize at the temperature of 80°C, After gelatinization, adjust the temperature at 60°C, weigh respectively dg of metha methyl cryiate and dg of sodium sahioylate and add them in order after 5 minutes interval, once they are completely dissolved, add 0 4g of cerium anumonium mtrate and keep heating the water bath for 1h.

When cooled to room temperature, add D5g of octadeyl dimethyl benzyl ammonium chloride and 2.0g of calcium chloride, and the product is synthesized and extracted by the microwave vibration process. Finally, test the relative performance, Application Example 4 Weigh 42 of chitosan into a three-necked flask filled with 400 mi of distilled water, infuse it with arote, gelatinize at the temperature of 8090. After gelatinization, set the temperature to 60 °C, weigh 8g of methyl methaoryiate and Zg of sodium salicylate respectively and add them in order after 5 minutes interval, once they are completely dissolved, add C.de of cerium nitrate ammomum and remain heating the water bath for ih.

When cooled to room temperature, add 0.5g of octadecyl dimeetbyl benzyl ammonium chloride and 2.0g of calchum chloride, and the product is synthesized and extracted by the method of microwave vibration.

Finally, test relative performance.

Application example 5 Put 4g of chitosan in a three-necked flask filled with 400ml of distilled water, fill it with nitrogen, gelatinize at the temperature of 8090. After gelatinization, adjust its temperature to 60°C, weigh respectively 8g of methyl methaorylate and 4g of sodium salicylate and add them in order after 5 minutes apart, once they are completely dissolved, add 0.29 of cerium ammonium nitrate and keep heating the water bath during Ih. When cooled to room temperature, add 0% octadecyl dimethyl benzyi ammonium chloride and 2.0% calcium chloride, and the product is synthesized or extracted by the microwave vibration process. Finally, test relative performance. Application Example 6 Weigh 4g of chttosan in a three-necked flask filled with 400 ml of distilled water, blow in nitrogen, gelatinize at SOC temperature. After gelatinization, set the temperature to 60°C, put &g of methyl methacrylate and 49 of sodium salicylal respectively and add them in order after 5 minutes interval, once they are fully dissolved, add 0.42 of ammomum cerium nitrate and remain heating the water bath for Ih, When cooled to room temperature, add 1.02 of octadecyl dimethyl benzyl chloride (ammonium and 2.02 of calcium chloride, and the product is synthesized and extracted by the method of microwave vibration, Finally, test the relative performance Application Example 7 Weigh 4g of chitosan into a three-necked flask filled with 400ml of distilled water, infuse it with azo, gelatinize at the temperature of 80° C. After gelatinization, set the temperature to 60° C., weigh &g of methyl methacrylate and 4th of sodium salicyate respectively and add them in order after 5 minutes interval, once they are completely disso us, add D 4g of cerium ammonium nirate and keep heating the water bath for 1h, when cooled to room temperature, add 0.32 of octadecyl dimethyl benzyl ammonium chloride and 1.09 of calcium chloride, and the product is synthesized and extracted by the process of microwave vibration, Finally, test the relative performance, | Rate of weight gain The assay for permeation effects of permeability enhancer. The cut raw coals are soaked in different liquids and left to stand for a day oi test its mass changes every 4 hours as what shows in the table

1.

Saw the painting | 2 Dust production The quenched coal block is crushed and subjected to a wind speed of 6m/s to check the before and after mass variations to obtain its dust production, Considering table 2 for the production of dust Experimental sample Dust production (76) Experimental example 1 13 Experimental example 2 28 Experimental example 3 26 Experimental example 4 31 Experimental example 5 17 Experimental example & 34 Experimental example 7 39 3 Permeation depth mass in a test tube, then introduce different permeability enhancers into the test tube to observe the depth of its downward permeation.

Considering table 3. at Shear viscosity Put the solutions prepared with different proportions into NDJ-1 type rotational viscometer to test shear viscosity, Considering tablsan 4 for shear viscosity Experimental sample Shear viscosity Experimental example 1 45 Experimental example 2 53 Experimental example 3 51 Experimental example 4 75 Experimental example 5 89 Experimental example 6 36 Experimental example 7 49

The above for the sole purpose of the invention, implementation insofar as the scope of protection of inventions are not limited to the reason why no knowledge of technicians in the technical field of the invention to denounce anyone within the scope of the invention in mind and the principles of modifying, replacing and making improvements, etc. should cover the scope of the protection of inventions.

Claims (1)

1. The multi-layer composite network structure permeability enhancer applied for seam water injection, characterized in that the multi-layer composite network structure permeability enhancer applied for seam water injection is composed of mass percentage of 1%6-2% chitosan, 25%-45% methyl methacrylate, 1%-3%6 sodium salicylate, 0.1%-03% imitiator, 0.08%-G .1% crosslinker, 0.0-0.5% impregnant, 0.02%-0.04% calcıum chloride and water, Water is supplemented to the percentage of 100%. 2. The multilayer composite network structure permeability enhancer applied for seam water injection described in Article I of the Bill of Rights, which characterizes that the described impregnant is octadeyldimethylbenzylammonium chloride ei the calcium chloride, The initiator is cenum and ammonium nitrate. 3, The roulticlayer composite network siructure permeability enhancer applied for seam water injection described in the article! of the Bill of Rights, which characterizes that the optimization ratio of multi-layer composite network structure permeability enhancer applied for seam water injection in 400 mi of water is as follows: chitosan: methyl methacrylate : sodium salicylate = 1:2:1, cerium ammonium chloride: can = 1500, octadeyldimethylbenzylammon chloride: calcium chloride = 1:4. to, The process for preparing the multiconch composite network structure permeability enhancer applied for the injection of seam water described in one of the articles - IV of the Bill of Rights, which characterizes that the stages of the preparation process are as following. Step 1, add chitosan powder into a three-necked flask containing deionized water and imuffate nitrogen into it, gelatinize and react to get the first solution: Step IL, cool the first solution after gelatinization and add respectively methyl methacrylate and sodium salicylate, when methyl methacrylate and sodium salicylate are completely dissolved, add cerium ammonium nitrate and heat in a bain-marie to obtain a second solution: IM step, cool the second solution, add decoctadeyl dimethyl benzyl ammonium chloride and calcium chloride respectively, and continue to act and heat in a water bath to obtain a third solution: TV step, the obtained third solution was treated by microwave vibration and the products were synthesized and extracted to obtain the malticlayer composite network structure permeability enhancer applied for seam water injection. 5. The preparation process of the multilayer composite network structure permeability enhancer applies for the injection of seam water described in the PV article of the Bill of Rights, which characterizes that the gelatinization temperature is 89° C in step |. 6. The preparation process of the multiconch composite network structure permeability enhancer applied for the injection of seam water described in article IV of the Bill of Rights, which characterizes that the first solution obtained after reaction comprises a temperature reaction temperature of 45°C and a reaction time of 1 hour in step E 7. The method of preparing the multilayer composite network structure permeability enhancer applied for vein water injection described in article IV of the Bill of Rights, which characterizes that the cooling of the first sciution after gelatinization includes I cooling the first solution to 30°C-70°C after gelatinization; wherein the optimization cooling temperature is 60°C in step I 2. The preparation process of the multilayer composite network structure permeability enhancer applies for the injection of seam water described in article IV of the Bill of Rights, which characterizes that the heating time of the water bath ost of Ib in step IL 9. The preparation process of the multi-conch composite network structure permeability enhancer applied for the injection of seam water described in article IV of the Bill of Rights, which characterizes that the heating time of the water bath is of Th in the HL stage 10. The method of preparing multi-layer composite network structure permeability enhancer applied for vein ean injection described in article IV of the Bill of Rights, which characterizes that the treatment of the third solution obtained by Vibration microwave includes the third cat solution extracted by microwave vibration using an ultrasonic extractor in step IV.