气化废水中的主要成分对水煤浆表面性质的影响

Dedi Li, Biao Feng, Yuanlin Luo, Jianbin Wang, Xinjie Lai, Jun Zhao
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摘要

水煤浆是一种先进高效的洁净煤技术,利用气化废水制备水煤浆可以循环利用废水,提高能源利用效率。由于废水中的复杂物质对水煤浆性能影响较大,本文研究了气化废水中有机物、金属离子、氨氮等对水煤浆表面性质的影响,以期为废水制备水煤浆的成浆机理提供新思路。研究结果表明(a)与普通水煤浆相比,有机物含量高的废水制备的水煤浆浓度增加了 2.9%,而氨氮含量高的废水制备的水煤浆浓度降低了 2.1%。(b) 用酚类、醇类和聚氨酯制备的水煤浆的接触角分别降低了 2.8°、6.3° 和 1.5°,因此有机物会改变煤粒的亲水性,影响成浆性。(c) Mg2+ 和 Ca2+ 对煤浆基本没有影响。Fe3+ 可使 Zeta 电位绝对值降低 33.1,Cu3+ 可使 Zeta 电位绝对值升高 22.8,因为它们通过改变煤粒的表面电位和添加剂的吸收来影响煤浆性。(d) 氨氮通过改变煤浆的 pH 值来影响可浆性。得出废水中有机物、金属离子和氨氮对煤浆性的影响机理,可为选择合适的废水制备水煤浆提供技术参考。
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Effect of the main components in gasification wastewater on the surface properties of coal water slurry
Coal water slurry is an advanced and efficient clean coal technology; using gasification wastewater to prepare coal water slurry can recycle wastewater and improve energy utilization efficiency. As the complex substances in wastewater have a great influence on the slurry properties, the effects of organic matter, metal ions, and ammonia nitrogen in gasification wastewater on the surface properties of coal water slurry are studied in this paper in order to provide new ideas for slurry mechanism of coal water slurry prepared from wastewater. Results show the following: (a) Compared with ordinary coal water slurry, the concentration of coal water slurry prepared from wastewater with high organic content increased by 2.9%, while the concentration of coal water slurry prepared from wastewater with high ammonia nitrogen content decreased by 2.1%. (b) The contact angles of coal water slurry prepared with phenols, alcohols, and urethane are reduced by 2.8°, 6.3°, and 1.5°, respectively, so organic matter can change the hydrophilicity of coal particles and affect slurryability. (c) Mg2+ and Ca2+ have basically no effect on slurry. Fe3+ reduces the absolute value of Zeta potential by 33.1, and Cu3+ increases that by 22.8, as they affect the slurryability by changing the surface potential of coal particles and the absorption of additives. (d) Ammonia nitrogen influences the slurryability by changing the pH value of the slurry. The conclusion of the influence mechanism of organic matter, metal ions, and ammonia nitrogen in wastewater on slurryability can provide a technical reference for the selection of suitable wastewater to prepare coal water slurry.
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