Coupling of anionic wetting agents to dust of sulfide ores by dropping liquid method

By using the experimental approach of dropping liquid, the coupling of three anionic wetting agents with ten dust samples of sulfide ores was studied, and particularly the wetting effects of the wetting agents on the sulfide dust influenced by factors of agent concentration and sulfate additive in the wetting agent solutions were investigated. The results show that when the solution temperature is about 20 ℃, all the selected wetting agents are effective to most dust samples, but the effect is different. Wetting agents are more effective to the dust which is difficult to be wetted. Wetting agent solution with sodium sulfate can improve the wetting ability of sulfide dust. For sodium dodecyl benzene sulfonate, the suitable concentration of sodium sulfate is 12 mmol/L. The cost of wetting agents can be reduced because the sodium sulfate is much cheaper than many surfactants. Since the dust of sulfide ores is composed of various minerals and elements, the whole effect of depressing dust should be considered while innovating a wetting agent.

Fault Tree Analysis of Dust Suppression Mechanism in a Spray System with Wetting Agent

By using the fault tree analysis in reliability theory as the systematical analysis approach, the dust suppression mechanism in a spray system with wetting agent is shown in a logic tree and some graphical models. From these diagrams, all factors related to the spray system and their cause and effect relationship can be seen clearly. Based on the built logic tree, several mathematical models and new ideas for expressing the dust suppressing efficiency in the spray system are put forward. The significance of all factors related to the efficiency of suppressing dust is qualitatively described. Furthermore, the new concepts, such as, the effective reaction time between dust particle and droplet, the expansion phenomenon of laden dust droplet, the functions of volatile and the relative size distribution efficiency of wetting agent are presented. All this richenes the existing mechanism of dust abatement by spraying wetting agent. At last, several problems that need to be further investigated are also suggested in the paper.

Application study on complex wetting agent for dust-proof after gas drainage by outburst seams in coal mines

After gas drainage, the outburst seam is dry and, consequently, during subsequent mechanized mining, unwanted dust production is extensive. Because the hard dustfall typically has a small particle size it contains a high percentage of respirable dust. Considering these factors, this paper improved the efficiency of dustfall by reducing the surface tension of the liquid used as a wetting agent, then configuring five kinds of wetting agents by adopting various doses and types of surfactants, neutral inorganic salts and chemical additives, etc. After purchasing DA-85 and SRJ-1 wetting agent, the surface tension and critical micelle concentration of seven kinds of wetting agents were measured using the capillary rise method. Wetting agent A was confirmed to have the best comprehensive effect. The experiments were optimized by measuring and comparatively analyzing contact angles of pure water, SRJ-1 wetting agent and wetting agent A on the surface of different coal samples using a contact angle measurement instrument （HARKE- SPCA）. By comparative analysis, dust-proof effects of seam, dynamic pressure water infusion and high- pressure spray in the tunneling face at the Daning coal mine using pure water, wetting agent SRJ-1 and A, it was determined that after using wetting agent A, the average dust concentration in the place of the mining machine driver, 10 m and 110 m away from the tunneling front is approximately 300 rag/ m^3, 240 mg/m^3 and 100 mg/m^3, respectively, This practice increased the dust-proof efficiency dramati- cally and achieved a good comprehensive dust-proof effect.

Wetting agent investigation for controlling dust of lead-zinc ores

The purpose of this project is to control the pollution of dust,which occurred in a typical lead-zinc mine.Two kinds of surfactants and water glass were chosen as the wetting agents to study the behaviours of suppressing the dust.The performances of the wetting agents of various sizes and water content of dust and their compositions among different weting agents were investigated. Firstly,the chemical compounds,dispersity,water content,bulk density and other relevant physico-chemical properties of the choiced dust of lead-zinc ore were mensurated.A great number of down-ward penetrating tests were conducted to different partical sizes of dust and to analyze the dust wetting behaviour respectively.The optimal compositions of wetting agents were obtained in accordance with different water contents and partical sizes of the dust after analyzing and statisting the achieved experimental data. The data show that the efficiency of chemical dust suppression of weting agents is much better than that of water.The results of the research work prove that the partical size and the water content of the dust are very important factors to the dust suppression.The results are also proved validly by the dropping experiment,which takes the penetrating diameter and penetrating time as the major factors.The superfine dust is much more difficult to be wetted.Since increasing the water content of dust is the best approach to control it,the choice of wetting agents for improving dispensation is significant.

苏里格气田低渗储层解水锁剂的制备及性能评价

针对苏里格气田低渗储层岩石表面特性及水锁成因,通过对润湿反转剂、酸液及缓蚀剂等药剂进行筛选优化,确定出最优的解水锁剂配方;并在此最优解水锁剂配方下,进行了解水锁剂性能评价、岩心自吸实验及苏里格气田5口低产井解水锁实验。实验结果表明,最优的解水锁配方为0.5%(w)乙烯基三甲氧基硅烷+0.01%(w)非离子表面活性剂+10%(w)CH_(3)CH_(2)OH+1.5%(w)缓蚀剂+0.5%(w)HCl+1.0%(w)CH_(3)COOH+3.0%(w)HF;解水锁剂可将亲水性岩石表面反转为强气润湿性,接触角从58.73°增加到130.81°;解水锁剂处理后的岩心自吸水量降低74.8%,岩心气测渗透率回复率达到80.6%~88.7%;施工后的气井产能显著提高,日增气量达到(0.54~3.09)×10^(4)m^(3),起到了很好的解水锁效果。

预湿再生砂与膨胀剂协同作用对再生砂混凝土收缩性能的影响

为了降低再生砂混凝土的收缩变形,研究了预湿再生砂对混凝土工作性能、抗压强度、自收缩、干燥收缩及内部相对湿度的影响,并在此基础上掺入3种不同类型膨胀剂,进一步研究了预湿再生砂与膨胀剂协同作用对混凝土自收缩和干燥收缩的影响。结果表明:在附加用水量相同情况下,与采用绝干状态再生砂制备的混凝土相比,采用预湿再生砂制备的混凝土工作性能降低、强度增加,混凝土内部相对湿度更高,有效降低了其自收缩和干燥收缩;在掺入的3种膨胀剂中,钙质膨胀剂对混凝土自收缩的抑制效果最佳,钙镁复合膨胀剂对混凝土干燥收缩的抑制效果最佳;100%预湿程度下,与未掺膨胀剂混凝土相比,掺10%(质量分数)钙质膨胀剂的全再生砂混凝土的28 d自收缩降低了83.2%,掺6%钙镁复合膨胀剂的全再生砂混凝土的120 d干燥收缩则降低了36.1%。

矿井高效抑尘剂优化配方及性能研究

以某煤矿掘进工作面粉尘为研究对象,开展矿井高效抑尘剂优化配方及性能研究。通过沉降实验,确定高效抑尘剂优化配方的润湿剂组分为2%的TX-100和0.5%的SDBS混合溶液;通过黏度测定实验,确定优化配方的黏结剂组分为E412;通过保水性实验,确定优化配方的保水抑尘剂组分为PAAS;通过抑尘剂溶液的酸碱度测定实验,确定选用PHOS调节溶液的pH值为6.8;最终研究得到矿井高效抑尘剂GHY-1配方组分及比例。性能测定实验结果表明:高效抑尘剂优化配方表面张力为68.15 mN/m,左、右接触角分别为11.25°和10.85°,黏度值为0.4mPa·s,保水率为80.5%,降尘效率可达95.3%。

干湿循环作用下融雪剂对玻璃纤维水泥土力学性能影响的试验研究

为研究在干湿循环作用下不同种类融雪剂对玻璃纤维水泥土力学性能的影响,制备浓度为0.2mol/L的醋酸钾、氯化镁和硫酸钠溶液作为融雪剂溶液,将养护后的无纤维水泥土和有纤维水泥土试块在不同种类的融雪剂溶液中浸泡3d,然后将试块取出放入烘干箱内分别进行8~10次干湿循环。进而分析融雪剂类型、干湿循环次数对试块表面破坏状态、强度和质量等的影响。试验结果表明:经过10次干湿循环后,醋酸钾融雪剂溶液对试块质量和强度的影响程度小于氯化镁溶液和硫酸钠溶液,说明醋酸钾融雪剂对水泥土侵蚀作用较小;试块表面裂纹随着干湿循环次数的增加逐渐增多加深,在经历相同干湿循环次数后,有纤维水泥土试块的裂纹发展程度、质量损失率和强度损失率均低于无纤维水泥土试块,说明通过添加玻璃纤维可有效提高水泥土抗干湿循环和融雪剂侵蚀的能力。

造纸用湿强剂的研究进展

本文概述了造纸用湿强剂的技术现状和研究进展。根据工业化程度及应用情况将纸张湿强剂分为工业化湿强剂、其他湿强剂及增湿强体系;其中着重讨论了聚乙烯亚胺树脂(PEI)、脲醛树脂(UF)、三聚氰胺甲醛树脂(MF)、聚酰胺多胺环氧氯丙烷树脂(PAE)和双醛淀粉(DAS)等工业化湿强剂的合成、应用及优缺点;介绍了聚羧酸、壳聚糖、海藻酸钠类湿强剂及多元增湿强体系在造纸湿部领域的研究现状;并对造纸用湿强剂的未来发展趋势进行了展望。

湿润剂对育苗基质水分吸持和黄瓜穴盘苗生长的影响

基质水分吸持特性直接影响基质含水量和蔬菜穴盘苗生长发育。为了探明湿润剂对穴盘育苗基质水分吸持的作用,研究了湿润剂添加后对不同粒径育苗基质的水分吸收量、蒸散速率和黄瓜穴盘苗生长的影响,结果表明:小粒径基质吸水速率和吸水量显著低于大粒径基质,湿润剂更有利于增加小粒径基质吸水量,相对于大粒径基质增加了17.32百分点;添加湿润剂同时提高了穴盘育苗基质吸水速率和蒸散速率,并使基质在1、2、3次吸水-蒸散过程始终保持较高相对含水量;基质添加湿润剂可有效促进小粒径基质条件下黄瓜穴盘苗生长发育,显著提高了黄瓜幼苗根冠比和成坨率。表明基质添加湿润剂可有效改善小粒径育苗基质水分吸持特性,有利于黄瓜穴盘苗壮苗形成。

不同浓度湿润剂对高寒草甸鼠害型秃斑地改良效果研究

【目的】秃斑地土壤斥水性是限制其植被恢复的重要因素。降低秃斑地土壤斥水性,增加土壤持水性是植被恢复的优选措施之一。【方法】选取青藏高原东部碌曲县典型秃斑地,喷施100、200、300和450 mL/m^(3)浓度的湿润剂,以未喷施湿润剂的秃斑地为对照(CK),对比分析喷施区和对照区土壤物理性状和植物群落特征,并采用相关性分析探讨土壤因子对植物群落特征的影响,灰色关联度分析法,评价改良效果。【结果】1)不同浓度湿润剂喷施后,土壤最大持水量(MC)、毛管孔隙度(CP)和总孔隙度(TP)均大于CK(P<0.05),各浓度处理间无显著差异;2)湿润剂浓度为200 mL/m^(3)的喷施区,多年生杂类草丰富度显著大于其他浓度处理,大于CK(P<0.05);3)土壤最大持水量(MC)和毛管持水量(CC)与植物高度(ht)显著相关(P<0.05)。【结论】秃斑地喷施湿润剂可提高土壤持水能力,增加植物物种丰富度,湿润剂浓度为200 mL/m^(3)喷施效果最佳。

高引气型湿喷混凝土回弹控制技术研究

为提高湿喷混凝土的可泵性,减少回弹率,掺加新型引气流变剂制备了高引气型湿喷混凝土,测试了引气流变剂与其他材料的相容性,研究了高引气型湿喷混凝土的工作性能、力学性能及回弹率等。结果表明:新型引气流变剂的发泡和稳泡能力均高于AES和K12,浓度为0.2%时,发泡量为1050 mL,半衰期达650 s;由于滚珠效应和溶剂化膜作用,引气流变剂能提高湿喷混凝土的流动性及保坍性,减水剂掺量为0.8%、引气流变剂掺量为0.2%时,含气量由普通混凝土的2.3%增大至10.2%;掺加引气流变剂后,湿喷混凝土的回弹率由14.56%降至8.79%,实测粉尘浓度由10.82 mg/m^(3)降至5.96 mg/m^(3),其他性能满足施工要求。

综掘工作面粉尘运移规律及综合降尘技术研究

为解决唐安煤矿掘进工作面粉尘污染严重的问题,以3306轨道巷掘进为工程背景,采用数值模拟、现场实测等方法,进行分段注水+高压喷雾粉尘综合防治技术研究,研究表明:质量浓度0.6%的湿润剂溶液对粉尘具有较好湿润效果,综合降尘技术实施后,距工作面15 m回风侧粉尘浓度降幅达到90%,取得理想除尘效果。3306轨道巷掘进工作面粉尘综合防治技术为矿井综掘面后续防尘方案的设计及实施提供可靠参考。

疏松砂岩稠油油田钻井液提速技术研究

渤海绥中36-1、旅大5-2油田属于特高孔、特高渗储层,经过二次调整开发地层压力体系复杂,钻井过程中要钻遇到多种复杂地层,存在地层压力、地层状态、岩性和地层分层深度等不确定等因素,制约了钻井时效。为了加快勘探开发进程,研究和开发了钻井液提速剂,降低了钻屑对钻具的吸附,改变岩石表面润湿性,提高钻井液润滑性能,从而提高钻井速度。提速剂在渤海油田A6井、A9井、A12井、A18、A22井得到了应用,从应用的效果来看,试用的5口井平均倒划眼率比原来降低了21.6%。

低渗透致密油藏压裂驱油剂润湿性评价及效果

针对低渗透致密油藏压裂驱油剂的润湿性评价问题,分析现有接触角法的误差及不确定性,提出了评价压裂驱油剂润湿性的改进方法,采用润湿倾向指数,即驱油剂与蒸馏水在亲水/油表面的润湿接触角的比值来表征压裂驱油剂的润湿性改变方向和程度。结果表明,用接触角和接触角变化的最大值反映驱油剂对储层润湿性改变方向和能力都存在一定的不确定性。亲水表面的性质非常稳定,润湿接触角偏差较小,但亲油表面的润湿接触角偏差较大。蒸馏水与亲水/油表面润湿接触角的相对平均偏差分别为0.281%、8.929%。另外,部分驱油剂在亲水/油表面的接触角最大变化值差异不明显。用润湿倾向指数可较好地表征驱油剂的润湿性改变程度。润湿倾向指数不确定度远小于接触角不确定度。0.2%磺酸盐类驱油剂、聚氧乙烯醚类驱油剂、氟碳类驱油剂在亲水表面的接触角(润湿30 s)不确定度分别为1.24、3.11、0.64,而水润湿倾向指数不确定度分别为2.48×10^(-2)、6.33×10^(-2)、1.76×10^(-2)。通过Amott方法,测得7种压裂驱油剂作用下天然岩样的水湿指数。该水湿指数从大到小的排序与用接触角法测得的水润湿倾向指数从小到大的顺序一致。两种方法的测试结果进一步证实了使用润湿倾向指数的准确性和优越性。该方法有利于快捷地评价压裂驱油剂对储层润湿性的改变能力,优选低渗透致密油藏压裂驱油剂。

新疆露天矿层结性火烧岩注水润湿剂配方研究

抑尘剂注水预湿减尘是从产尘根源上解决露天煤矿工作面粉尘污染的有效方法。层结性原岩在垂直方向上性质差异极大,单一类型润湿剂无法满足整体工作面预湿需求。以新疆大南湖二矿为研究背景,采集、测定6层原岩化学官能团,分析其亲水性差异原因;选取2种阳性、6种阴性、3种非离子及4种两性共15种表面活性剂进行单体优选实验,确定最优单体材料;测试表面张力和润湿时间2项主控指标,通过正交实验确定注水润湿剂最佳质量分数配比为0.15%OP、0.10%KT、0.15%LAD-40、0.10%LAB-35。实验结果表明,自主研发的润湿剂对6种火烧岩的润湿效果均高于环保型、高分子型及润湿型3种市售抑尘剂。研究成果有效解决了层结性原岩润湿不均的现实难题,为露天矿工作面粉尘防治提供了技术支撑。

PAE湿强剂中氯丙醇含量对纸张水提取液中氯丙醇含量的影响

为检测PAE湿强剂中氯丙醇的含量,本研究建立了气相色谱-质谱联用法(GC-MS),检测PAE湿强剂中1,3-二氯-2-丙醇(1,3-DCP)与3-氯-1,2-丙二醇(3-MCPD)的含量,并进行了方法学验证,同时探究了PAE湿强剂中氯丙醇含量与纸张水提取液中氯丙醇含量之间的关系。本研究对4批次某款湿强剂进行检测,发现随着湿强剂制造工艺的改进,1,3-DCP与3-MCPD的含量均有明显的下降。调整湿强剂和助留剂的添加量,抄造不同批次的纸张,同时测定纸张水提取液中的氯丙醇含量与纸张的抗张强度。结果显示,纸张水提取液中的氯丙醇含量与湿强剂中氯丙醇含量呈正相关关系,与湿强剂添加量成正比;在助留剂实际添加量超过厂家推荐添加量的情况下,纸张水提取液中的氯丙醇含量与助留剂添加量无明显关系,但会导致纸张湿、干抗张指数下降。

玄武岩纤维浸润剂的制备及性能研究

通过自制缠绕型玄武岩纤维浸润剂CRJR,对其进行了离心稳定性、表面张力、固含量测试与表征;并通过坩埚型玄武岩拉丝机,实验自制了玄武岩纤维CRJR-BF。对比分析了3种市售玄武岩纤维BCR-13-G、BR-13、BCR-13-BF与自制玄武岩纤维的表面形貌、纤维线密度、表面能、丝束拉伸强度等性能。结果表明:自制纤维在表面能、纤维抗拉强度方面与市售纤维相差不大,部分指标优于市售纤维。

探究浸润剂对无碱玻璃纤维性能的影响及解决对策

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