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新型复合微胶囊阻化剂的制备及性能研究OA

Preparation and performance study of a novel composite microcapsule inhibitor

中文摘要英文摘要

针对传统阻化剂存在吸湿性强、易分解失活及储存稳定性差等问题,研制了一种聚乙二醇(PEG)基新复合微胶囊阻化剂,以提高其环境稳定性与煤自燃抑制效果.以柠檬酸(CA)与聚磷酸铵(APP)复合体系为芯材,聚乙二醇 20000(PEG20000)为壁材,通过锥形量热仪筛选确定最佳芯材质量比为 m(CA)∶m(APP)=1∶5,并采用熔化分散冷凝法制备芯壁比分别为 1∶1、1∶2、1∶3 及 2∶1 的微胶囊阻化剂.扫描电子显微镜(SEM)与能谱仪(EDS)表征结果显示,微胶囊表面形成连续胶状 PEG 膜,且 EDS 谱图仅检测到壁材元素,证实了芯材被 PEG20000 成功包覆.同步热分析(TG-DSC)实验结果表明:芯壁比为 1∶1 的样品(B2)表现出最佳抑制性能,其临界温度 t1 与干裂温度 t2 较原煤分别提升 24.95%、40.22%,热平衡温度延迟 19.45℃,吸热量增加 357.00 J/g,放热量减少 898.53 J/g,显著延缓煤氧化放热过程.恒温恒湿实验(湿度 70%/60%,温度 25℃)结果表明:B2 样品的吸湿率较芯材阻化剂分别降低 20.33%和 19.87%,环境稳定性显著提升.程序升温与傅里叶红外光谱(FTIR)分析表明,经 B2 样品处理的煤样最大 CO生成率较原煤降低 72.78%,在 100℃时阻化率达 70.09%;脂肪烃基(-CH3/-CH2-)和羟基(-OH)峰面积占比较原煤分别降低 2.38%、3.51%,而醚键(C-O)峰面积占比增加 5.73%.

Aiming at the problems of strong hygroscopy,easy decomposition and deactivation,and poor storage stability existing in traditional inhibitors,a novel polyethylene glycol(PEG)-based composite microcapsule inhibitor was developed to improve its envir-onmental stability and inhibition effect on coal spontaneous combustion.Taking the composite system of citric acid(CA)and am-monium polyphosphate(APP)as the core material and polyethylene glycol 20000(PEG20000)as the wall material,the optimal mass ratio of core material was determined as m(CA)∶m(APP)=1∶5 via screening with a cone calorimeter,and microcapsule inhibit-ors with core-wall ratios of 1∶1,1∶2,1∶3 and 2∶1 were prepared by the melt-dispersion condensation method.The characteriza-tion results of scanning electron microscope(SEM)and energy dispersive spectrometer(EDS)showed that a continuous colloidal PEG film was formed on the surface of the microcapsules,and only the wall material elements were detected in the EDS spectra,which confirmed that the core material was successfully encapsulated by PEG20000.The results of thermogravimetric-differential scanning calorimetry(TG-DSC)experiments indicated that the sample with a core-wall ratio of 1∶1(B2)exhibited the best inhibi-tion performance:its critical temperature t1 and dry cracking temperature t2 were increased by 24.95%and 40.22%compared with raw coal,the thermal equilibrium temperature was delayed by 19.45℃,the heat absorption capacity was increased by 357.00 J/g,and the heat release capacity was reduced by 898.53 J/g,which significantly delayed the exothermic process of coal oxidation.The results of constant temperature and humidity experiments(RH=70%/60%,25℃)showed that the moisture absorption rate of the B2 sample was reduced by 20.33%and 19.87%compared with the core material inhibitor,respectively,indicating a significant improve-ment in its environmental stability.Further analysis via programmed temperature rise and Fourier transform infrared spectroscopy(FTIR)demonstrated that the maximum CO generation rate of the coal sample treated with the B2 sample was reduced by 72.78%compared with raw coal,with the inhibition rate reaching 70.09%at 100℃;meanwhile,the peak area proprtions of aliphatic hydro-carbon groups(-CH3/-CH2-)and hydroxyl groups(-OH)were reduced by 2.38%and 3.51%compared with raw coal,respectively,while the peak area proprtions of ether bonds(C-O)was increased by 5.73%.

吴群群;张雷林;季燕男;刘金峰

安徽理工大学 煤矿安全高效开采省部共建教育部重点实验室,安徽 淮南 232001||安徽理工大学 安全科学与工程学院,安徽 淮南 232001安徽理工大学 煤矿安全高效开采省部共建教育部重点实验室,安徽 淮南 232001||安徽理工大学 安全科学与工程学院,安徽 淮南 232001安徽理工大学 煤矿安全高效开采省部共建教育部重点实验室,安徽 淮南 232001||安徽理工大学 安全科学与工程学院,安徽 淮南 232001安徽理工大学 煤矿安全高效开采省部共建教育部重点实验室,安徽 淮南 232001||安徽理工大学 安全科学与工程学院,安徽 淮南 232001

矿业与冶金

煤自燃微胶囊阻化剂材料制备阻化特性官能团

coal spontaneous combustionmicrocapsule inhibitormaterial preparationinhibition characteristicsfunctional groups

《煤矿安全》 2026 (4)

49-60,12

国家自然科学基金资助项目(52474202,51874008)安徽省自然科学基金杰青资助项目(2408085J032)

10.13347/j.cnki.mkaq.20250899

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