蓝藻与神府煤共成浆性的研究

考察了预处理方法对含水蓝藻表观黏度的影响,以及蓝藻对神府煤浆成浆浓度、流变性和静态稳定性的影响。结果表明,采用添加化学药剂、高速搅拌、加热等方法对含水蓝藻进行预处理,可以使表观黏度从72mPa·s降低到21.8mPa·s(剪切速率100s^-1)。蓝藻结构受到破坏是表观黏度降低的主要原因。含水蓝藻表观黏度的降低有利于蓝藻煤浆成浆浓度的提高。当添加水质量与含水蓝藻质量比为1∶1时,蓝藻煤浆的成浆浓度达到60%。蓝藻的加入提高了神府煤浆的稳定性,使稳定性从4h提高到72h以上。蓝藻煤浆为假塑性流体,剪切变稀。     

煤与生物油的成浆性能研究

利用不同煤种的煤和生物油制备了不同浓度的生物油煤浆,考察了生物油煤浆的成浆浓度、表观黏度、流变特性和稳定性。结果表明,生物油煤浆是具有一定屈服应力的非牛顿流体,其流变特性可用宾汉姆方程来描述;生物油煤浆的屈服应力和表观黏度都随着固体浓度的增加而增大;随着剪切速率的增加,生物油煤浆的表观黏度减小;四种煤中,无烟煤的成浆浓度最高,可达42%,其含碳量高达49%,相当于同种煤制成的74%的水煤浆含量。烟煤次之,褐煤最低;生物油与煤粉之间能够形成絮凝性的大分子网络结构,使得生物油煤浆存在屈服应力并能够保持良好的静态稳定性,4.0~5.0 d天没有软沉淀产生,数月没有硬沉淀产生。     

常压升温下油煤浆表观黏度变化的研究

为探讨煤直接液化工艺中油煤浆表观黏度随温度升高的变化规律,利用高温黏度计测定了煤浆体系的黏度,考察了溶剂、煤浆浓度、煤中含水量和不同显微组分等因素以及剪切速率、配浆温度、溶胀作用等对煤浆黏度 温度特性的影响。研究结果表明,低温下影响煤浆黏度变化的主要因素是溶剂本身的性质,煤浆的表观黏度随温度升高而降低;随温度继续升高在较宽温度范围内黏度变化不大,这是由溶剂性质以及煤在溶剂中的溶胀行为共同作用的结果;当温度达到约220℃后继续升高温度溶胀作用逐渐占优势,从而导致煤浆体系的表观黏度逐渐增大。     

胜利煤液化油煤浆表观黏度的影响因素研究

采用高温黏度计测定了胜利褐煤液化油煤浆在常压加热条件下的表观黏度,考察了煤浆质量分数、煤粉粒径、溶剂性质以及温度、剪切时间、剪切速率、溶胀等因素对煤浆体系表观黏度的影响。在常压室温至350℃的范围内,比较了胜利煤在起始溶剂和循环溶剂两种煤浆体系中的表观黏度。研究结果表明,胜利液化油煤浆体系是一种非牛顿流体,随着温度的升高,煤浆体系的黏度呈现先快速下降,然后基本保持不变,最后又逐渐上升的趋势。煤浆黏度保持不变的温度区间和黏度开始出现增加的温度随着煤浆的质量分数、煤粉的粒径以及配制煤浆所用溶剂的不同而不同。     

纤维素燃料乙醇废液与煤的成浆性能研究

提出了一种纤维素燃料乙醇废液大规模资源化利用的新方法—将纤维素燃料乙醇废液与煤共混制备废液煤浆作燃料用。借助旋转黏度计对废液煤浆(WLCS-CEF)进行流变性测定,研究了成浆浓度、废液加入量和添加剂对煤浆流变性的影响。结果表明,废液煤浆的表观黏度随成浆浓度及废液加入量的增加而增大,添加剂的加入明显改善废液煤浆的流变特性。废液中大分子量的木质素及未水解完全的纤维素和半纤维素能起到稳定煤浆的作用,同浓度下的废液煤浆比水煤浆稳定性高,且煤浆稳定性随浓度增大而增强,合适的添加剂也能改善稳定性。当选择添加剂A,成浆浓度为62%,废液添加量为煤量的2.5%时,制得的废液煤浆比较适合气化。     

粒径分布对水焦浆性质的影响

分析研究了不同粒径分布的石油焦成浆性及制备水焦浆的流变性和稳定性。结果表明,石油焦的成浆性较好,成浆浓度近70%,浆体的表观黏度均随浓度的增大而增大。粒径分布越宽,越有利于堆积,堆积效率越高,可制浆浓度越高,制备水焦浆的最佳药剂量越低,采用萘系分散剂制备的水焦浆呈胀塑性流型,粒径分布越宽,胀塑性越弱,利用静置观察法与Turbiscan Lab稳定性分析仪测定相结合评价水焦浆的稳定性,水焦浆的稳定性差,且粒径越大,析水率越低,沉降区的焦粉颗粒越易发生聚结,底部越易产生硬沉淀,稳定性越差。颗粒聚结是水焦浆稳定性的主要影响因素。     

改性污泥与无烟煤成浆性的研究

采用阴离子表面活性剂萘磺酸钠甲醛缩合物、聚羧酸钠作为分散剂,考察了不同污泥用量时污泥煤浆的成浆性能。结果表明,当污泥(干基)添加量为煤质量的4%时,成浆浓度超过60%,随着污泥用量的提高,污泥煤浆的成浆浓度降低。污泥加入后,浆体的稳定性增强,污泥比例越高,产生沉淀的时间延长。当污泥(干基)添加量为煤质量的4%时,产生沉淀的时间超过160h,与使用稳定剂效果相当。使用不同添加剂制备的污泥煤浆均呈假塑性。污泥疏松的絮状结构,蜂窝状的外表面,强大的吸水性是造成污泥煤浆成浆浓度下降,稳定性增加的主要原因。     

褐煤水热提质改善水煤浆的成浆性、流变性和稳定性的实验研究

采用水热法对小龙潭褐煤进行提质处理,从煤质特性、含氧基团、表面亲水性和粒度分布等因素,探究了水热提质对褐煤水煤浆成浆浓度、流变特性以及稳定性的影响。结果表明,水热提质脱除了褐煤中的水分,氧含量降低,煤阶升高。水热提质脱除了褐煤中含氧基团,煤水表面接触角增大,褐煤表面亲水性得到改善。小龙潭褐煤颗粒粒度呈现双峰分布,水热提质后褐煤颗粒粒径减小且趋于规则。水热提质改善了水煤浆的成浆性能,成浆浓度由提质前的44.09%,最高可提升到61.94%。在相近的表观黏度下,水热提质后水煤浆的稠度系数K减小,流变指数n增大,水热提质在降低浆体黏度的同时,仍保持假塑性流体特征。水热提质降低水煤浆的析水率,延缓了浆体出现硬沉淀的时间,改善浆体的稳定性。水热提质从理化特性对褐煤进行深度改性,从而获得高浓度,假塑性以及稳定性良好的符合工业应用的水煤浆。     

煤沥青水浆的制备及影响规律的研究

以中温煤沥青为原料,经冷冻粉碎后制得具有一定粒径级配的煤沥青粉,加入适量分散剂和水在高速搅拌下制备煤沥青水浆.结果表明,JL-C01中裂乳化剂是制备煤沥青水浆的优良分散剂,在此基础上进一步考察了分散剂用量及浆体浓度对煤沥青成浆性、煤沥青水浆流变性及稳定性的影响.结果表明,最大成浆浓度为70％;在分散剂用量相同的条件下,...     

全温度段裂解提质对锡盟褐煤成浆特性的影响

通过对锡盟褐煤进行涵盖高、中、低完整温度段的裂解提质,研究了裂解过程对煤质特性、成浆浓度、浆体流变特性以及稳定性的影响。对锡盟褐煤在隔绝空气条件下裂解,测量不同浓度浆体的黏度,并对剪切速率和表观黏度进行拟合得到不同浆体不同浓度的流变特性曲线,根据国标规定方法测量浆体的实际浓度以及浆体稳定性。并从裂解过程中样品表面官能团和孔隙结构变化角度分析裂解对锡盟原煤及半焦成浆特性的作用机理。实验结果表明,裂解过程可以减少样品中的含氧官能团,降低其亲水性,有利于成浆浓度的提高,成浆浓度随裂解温度的升高呈现先增大后减小的变化趋势,但是裂解对浆体的稳定性有负面影响。随裂解温度的提高,含氧官能团的分解导致半焦的孔隙结构发生显著变化,平均孔径先减小后增大,比表面积和孔容积呈先增大后减小趋势。     

Adsorption of sodium dodecyl benzenesulfonate onto coal

The adsorption behavior of sodium dodecyl benzenesulfonate (NaDDBS) on a raw (as received) coal sample and its demineralized variety with 11.3% and 1.2% ash contents respectively has been studied. The samples have been characterized by their proximate analysis, particle size distribution, surface area, porosity, density, points of zero charge, etc. Adsorption of NaDDBS on these two samples has been studied as a function of concentration of NaDDBS, temperature, pH, and presence of indifferent electrolyte in the medium. It has been observed that the isotherm exhibits two adsorption plateaus below and above the critical micelle concentration (CMC) of NaDDBS. Low heats of adsorption suggest weak hydrophobic bonding between adsorbent and adsorbate. The present work aims to correlate the adsorption of surfactant onto coal particles with the rheological behavior of coal-water slurry (CWS). The results reveal that addition of a very small amount of NaDDBS (0.3 wt% of coal) to 60% (w/w) CWS results in a marked reduction of the apparent viscosity of the CWS at a shear rate of 100 s(-1). The effect of pH on the apparent viscosity of CWS with and without the presence of the surfactant is also investigated.     

Properties of Different Molecular Weight Sodium Lignosulfonate Fractions as Dispersant of Coal‐Water Slurry

Four purified sodium lignosulfonate (SL) samples with different molecular weights were prepared by fractionation using ultrafiltration. The effect of the molecular weights of SL on the apparent viscosity of coal‐water slurry (CWS) was investigated by studying the adsorption amounts and the zeta potentials in the coal‐water interface. The results show that the adsorption behavior of the dispersants in the coal‐water interface is the key factor to affect the dispersing effect, that the higher adsorption amount and compact adsorption film help reduce the viscosity reduction of CWS, and that the zeta potential is also an important factor influenced by the sulfonic group and carboxy contents of the lignosulfonate molecule. Furthermore, SL with a molecular weight ranging from 10000 to 50000 has both a higher adsorbed amount and zeta potential on the coal surface and the best effect on reducing the viscosity of the coal‐water slurry.     

Influence of Polycarboxylate Dispersants with Different Molecular Structures on the Performance of Coal Water Slurry

Polycarboxylate dispersants have variable structures and can be designed according to practical needs. Further study on the influence of molecular structures on the performance of coal-water slurry (CWS) has vital significance. A variety of polycarboxylate dispersants was designed and synthesized with different monomers. The performance of each dispersant for the low-rank China CWS (i.e., Shenfu coal) was evaluated. Results showed that sodium p-styrene sulfonate (SSS) was the most efficient monomer with better adsorption performance on the surface of coal particles and lower apparent viscosity (i.e., mole ratio of SSS and acrylic acid (AA) sodium 65:35, CWS concentration 63 wt%, dispersant dosage 0.5 wt%). Polyethylene glycol acrylate (PA) was also effective. In addition, 5 wt% cationic monomer methyl acryloyl oxygen ethyl trimethyl ammonium chloride (DMC) was introduced into the structure. The polycarboxylate dispersant with optimal molecular structure was applied in Shenfu coal. The performance of water slurry could meet the national standards well (i.e., apparent viscosity 920 mPa · s), displaying good rheological property and stability.     

Studies on the adsorption of Brij-35 and CTAB at the coal-water interface

The adsorption behavior of polyoxyethylene (23) lauryl ether (Brij-35) and cetyl trimethyl ammonium bromide (CTAB) on coal sample has been studied. The adsorption process is found to be sensitive to pH, temperature, electrolyte concentration, and the amount of surface active agent. An attempt has been made to explain the adsorption behavior of the surfactants using the Langmuir equation. The extent of adsorption of Brij-35 on coal is found to be the highest at pH 2, which decreases with increase in pH and remains constant in the neutral and alkaline pH regions. But, the adsorption of CTAB exhibits the opposite behavior of that of Brij-35. Adsorption of any of the surfactant at the coal/water interface sharply decreases the apparent viscosity of 55 wt% coal-water slurry (CWS) at a shear rate of 100 s(-1). Electrostatic adsorption of the surfactants on the coal surface decreases the surface charge and renders the coal surface hydrophobic which is manifested in the form of high apparent viscosity of the coal-water slurry under the test conditions.     

煤浆浓度和颗粒分布对煤浆黏度预测的影响

采用神华煤制备煤浆,分析了颗粒粒径比λ和小颗粒体积分数ξ对双峰分布浆体黏度的影响,根据浆体黏度的关联式预测了煤浆的黏度并且与实验结果进行了比较。结果表明,采用双峰分布的颗粒制浆可以有效地降低浆体的黏度,同时可以获得较大的浆体体积分数 。在相同体积分数下,随着颗粒粒径比λ的增加,浆体的黏度迅速下降。当小颗粒体积分数ξ_dp1为35%时,浆体的黏度最小。采用Ouchiyama模型计算浆体的最大体积分数Φ_m与实验值较为吻合,而浆体的本质黏度[μ]基本保持不变。考虑λ和小颗粒体积分数ξ对双峰分布浆体的最大体积分数Φ_m的影响,可以采用单峰分布浆体的黏度关联式预测双峰分布浆体的黏度。     

新疆褐煤疏水改性提高其成浆性能

针对新疆褐煤具有较高内水的问题,制备了阴离子AKD改性剂和非离子AKD改性剂,对褐煤颗粒进行疏水改性。研究了改性前后煤粒表面化学成分、孔隙分布、亲疏水性和Zeta电位等煤粒表面特性,并结合NSF分散剂在改性前后煤粒表面吸附量大小,探讨了改性前后褐煤水煤浆的成浆性、流变性和稳定性。结果表明,改性后煤粒孔隙结构降低,煤粒表面碳的相对含量增加,氧的相对含量降低,煤水界面接触角增加,煤粒疏水性能增强。NSF分散剂在改性煤表面吸附量增加,煤粒表面负电性增强。由阴离子AKD改性煤、非离子AKD改性煤制备的水煤浆最大成浆质量分数从原煤56.6%分别增加至61.0%、62.5%,浆体析水率从原煤13.97%分别降低至7.45%、7.89%,同时改性后煤粒制备的浆体均表现出剪切变稀的假塑性流体。因此,改性煤粒更容易制备高浓度、低黏度、高稳定性且易于储存和运输的水煤浆。