Expansion type nanometer inhibition gel for inhibiting spontaneous combustion of coal and preparation method of expansion type nanometer inhibition gel

An intumescent flame retardant and intumescent technology, applied in gel preparation, chemical instruments and methods, colloid chemistry, etc., can solve the problems of inability to improve material performance and decline in material performance, and achieve good water retention performance, Effect of reducing heat release and heat release rate and stabilizing structure

Active Publication Date: 2021-07-23
UNIV OF SCI & TECH BEIJING
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Adding such particles directly to the polymer will not only fail to improve the performance of the material, but may also degrade the performance of the material

Method used

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  • Expansion type nanometer inhibition gel for inhibiting spontaneous combustion of coal and preparation method of expansion type nanometer inhibition gel
  • Expansion type nanometer inhibition gel for inhibiting spontaneous combustion of coal and preparation method of expansion type nanometer inhibition gel
  • Expansion type nanometer inhibition gel for inhibiting spontaneous combustion of coal and preparation method of expansion type nanometer inhibition gel

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0047] The present invention compound modified nano-silica and polyacrylamide gel, prepare modified nano-silica / polyacrylamide composite gel, and find the best compounding of modified nano-silica / polyacrylamide Ratio, in order to achieve the optimal effect of inhibitor inhibition.

[0048] Modified nano-silica / polyacrylamide composite, we use solution polymerization method, acrylamide is monomer, initiator potassium persulfate. According to the central combination design principle of Box-Benhnkende, the reaction temperature (A) the amount of modified nano-silica, (B) the amount of initiator potassium persulfate, and (C) three factors that have a significant impact on the inhibitory effect of the inhibitor are selected. Adopting 3-factor and 3-level response surface analysis method, the design experimental points include 12 factorial design points and 5 calibration zero points. According to experimental results and experience, the value range of the amount of modified nano-sil...

Embodiment 2

[0058] Experimental comparative analysis of microstructure and morphology of swelling nano-barrier gel

[0059] (1) Sample preparation

[0060] Configure intumescent flame retardant / modified nano-silica / polyacrylamide composite gel (the present invention), modified nano-silica / polyacrylamide composite gel, pure polyacrylamide gel, grind after drying Before, block samples were taken for gold spraying treatment.

[0061] (2) Equipment parameters

[0062] Using ZEISS Gemini SEM 500 scanning electron microscope (SEM) system, under the condition of 30.00kV, different magnifications were used to observe the micro-morphological characteristics of the inhibitor.

[0063] (3) Research and analysis of microstructure morphology

[0064] image 3 (a) is the microscopic SEM of intumescent flame retardant / modified nano silicon dioxide / polyacrylamide composite gel (the present invention), image 3 (b) is a microscopic SEM of the modified nano-silica / polyacrylamide composite gel, image...

Embodiment 3

[0066] Comparative analysis of thermogravimetric experiments on the inhibition of spontaneous combustion of coal by intumescent nano-resistance gel

[0067] (1) Sample preparation

[0068] Coal powder with a particle size of 80-120 mesh (0.124-0.178mm) was used as the raw coal sample, and the intumescent nanogel was prepared according to the optimization result of the response surface analysis method, and the raw coal sample was processed. Put 15g of coal samples sieved through 140 mesh into 4 same 300ml beakers, add 35ml water to the first beaker, which is recorded as sample 1; add 35ml pure polyacrylamide gel to the second beaker, which is recorded as Sample 2; add 35ml of modified nano-silica / polyacrylamide gel to the third one, denoted as sample 3; add 35ml of intumescent flame retardant / modified nano-silica / polyacrylamide to the fourth one Composite gel (invention), designated as sample 4. Stir evenly, let it fully react for 24 hours, dry it naturally or dry it in an ov...

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Abstract

The invention provides an expansion type nanometer inhibition gel for inhibiting spontaneous combustion of coal and a preparation method the expansion type nanometer inhibition gel, belonging to the technical field of nanometer gel. The nanometer inhibition gel comprises an intumescent flame retardant, a nanometer flame retardant and a gel inhibitor, wherein the intumescent flame retardant comprises ammonium polyphosphate, polyethylene glycol and melamine; the nanometer flame retardant is nanometer silicon dioxide modified by a silane coupling agent process; and the gel inhibitor is a macromolecular hydrogel prepared from acrylamide through a monomer cross-linking polymerization method. The above three inhibition materials are compounded into the expansive nanometer inhibition gel by adopting an in-situ polymerization method. The gel is good in thermal stability, remarkable in inhibition effect at a high-temperature stage and long in inhibition service life, has the characteristics of stable gel material structure, large diffusion range and good water retention capacity, is an efficient, green, halogen-free, low-cost and stable environment-friendly inhibitor, can better adapt to a complex underground environment compared with a traditional inhibitor, and provides a new thought for research in the field of prevention and control of spontaneous combustion of coal.

Description

technical field [0001] The invention relates to the technical field of nano gels, in particular to an intumescent nano-resistance gel for inhibiting coal spontaneous combustion, that is, an intumescent flame retardant / modified nano silicon dioxide / polyacrylamide composite gel. Background technique [0002] The inhibitors commonly used in coal mines mainly include physical inhibitors, chemical inhibitors and composite inhibitors. However, among the physical inhibitors, halogen salt inhibitors will cause certain pollution to the environment, and the thermal stability is not high, and they are easy to be deactivated in the later stage of inhibition; silica gel inhibitors release a large amount of ammonia during the gelling process , cause certain harm to the human body, other gel inhibitors or viscosity, inhibition effect is not ideal, the cost is relatively high, the preparation process is complicated, the procedure is cumbersome, etc.; the polymer inhibitor participates in th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L33/26C08L71/02C08K9/06C08K3/36C08K3/32C08K5/3492E21F5/08B01J13/00
CPCC08L33/26E21F5/08B01J13/0052C08K2201/011C08K2003/323C08L2201/08C08L2201/02C08L71/02C08K9/06C08K3/36C08K3/32C08K5/34922
Inventor 高玉坤李金洋黄志安田叶张英华尹义超姬玉成
Owner UNIV OF SCI & TECH BEIJING
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