Adsorption of oil from waste water by coal:characteristics and mechanism

The work described here was focused on exploring the potential application of coal to purification of oily waste water.Coal was added to oily waste water as an adsorbent and then removed through a flotation process.This allowed economical and highly efficient separation of oil from the waste water.The absorption time,coal type,coal particle size distribution,pH value and oil concentration were investigated.The results indicate that oil absorption by a coal increases for a period of 1.5 h and then gradually tends toward an equilibrium value.It appears that the absorption capacity of anthracite is more than that of lean coal or lignite,given the same coal particle size distribution.The absorption capacity of a coarse coal fraction is less than that of finer coal,given the same of coal type.The absorption capacity of anthracite decreases slightly as the pH increases from 4 to 9.The adsorption of oil on anthracite follows the Freundlich isothermal adsorption law:given initial oil concentrations of 160.5 or 1023.6 mg/L the absorption capacity was 23.8 or 840.0 mg/g.The absorption mechanism consists of two kinds of absorption,a physical process assisted by a chemical one.

Surfactant-Enhanced Washing of Soils Contaminated with Wasted-Automotive Oils and the Quality of the Produced Wastewater

An old automotive industrial site located at Mexico City with many years of operation and contaminated with heavy oil hydrocarbons, particularly spent oils, was assessed for restoration using the surfactant enhanced soil washing (SESW) process. The main goal of this study was to characterize the contaminated soil in terms of TPHs, BTEX, PAHs, and metals contents as well as microbiologically (total heterotrophs and specific degrading microorganisms). We also aimed to determine the surfactant type and concentration to be used in the SESW process for the automotive waste oil contaminated soil. At the end, sixteen kg of contaminated soil were washed and the produced wastewater (approximately 40 L) was characterized in terms of COD, BOD;solids, and other physico-chemical parameters. The soil contained about 14,000 mg of TPH/kg soil (heavy fraction), 0.13 mg/kg of benzo (k) fluoranthene and 0.07 mg/kg of benzo (a) pyrene as well as traces of some metals. Metals concentrations were always under the maximum concentration levels suggested by Mexican regulations. 15 different surfactants were used to identify the one with the capability to achieve the highest TPH removal. Surfactants included 5 anionics, 2 zwitterionic, 5 nonionics and 3 natural gums. Sulfopon 30 at a concentration of 0.5% offered the best surfactant performance. The TPH removals employing the different surfactants were in the range from 38% to 68%, in comparison to the soil washing with water (10% of TPH removal). Once the surfactant was selected, 70 kg of soil were washed and the resulting water contained approximately 1300 mg/L of COD, 385 mg/L of BOD (BOD/COD = 0.29), 122 mg/L of MBAS, and 212 mg/L of oil and greases, among other contaminants.

Effect of Waste Oil-Cracking Catalyst Incorporation on Durability of Mortars

This paper presents research on transport properties and alkali-silica reaction (ASR) susceptibility of mortars containing a pozzolanic waste generated in the fluid catalytic cracking (wFCC) unit by the Portuguese oil-refinery. For this purpose, two series of mortars were prepared by partially replacing cement with 5%, 10% and 15% of wFCC catalyst. The main difference between the two series of mortars is the sand reactivity used in their composition. The results revealed that wFCC catalyst blended cement mortars exhibit an increased resistance against capillary water absorption and chloride migration, as well as a considerable inhibition effect on deleterious ASR expansion. However, under the adopted experimental conditions the incorporation of wFCC catalyst in mortars decreases their carbonation resistance.

Numerical Study of Oil Pollution on Sea Waters

This paper adopted an upstream FEM of 2-D unsteady flow to calculate the tidal flow in Zhoushan sea area. Based on the verification of the tidal current and environmental situation, the effects of the oily waste discharged from the oil berths on water quality have been calculated with a similar method. The isodilutions of oil pollutant are drawn from different sewage discharges. The moving loci of the slick centrepoint of oil spill have been calculated. The spreading area of the oil spill has also been forecasted. The results indicate that the set of models can predict the transport of oil spill in the sea area with reasonable accuracy.

STUDIES ON TUNG OIL COATED REGENERATED CELLULOSE FILMS WITH WATERRESISTANCE

Regenerated cellulose films with water-resistance were obtained by an improved method ofpreparing cellulose cuoxam solution from pulps of agricultural wastes (linters, wheat straw, reedand Bamao). Experimental results showed that the mechanical properties of both the dry. and wetfilms were excellent. Data from IR, SEM and tensile strength measurements implied that thesignificant improvement of water-resistance of the films was due to the cohesion between the thinTung oil covers with hydrophobicity and the regenerated cellulose films. The films werecompletely biodegraded after being buried in soil for 100 days. The transmittance of the filmsderived from linter and reed in visible band range were 80-90%.

Organic Wastes to Increase CO2 Absorption

The objective of the study was actually the investigation of the effect of various organic wastes on the ability of urine in absorbing CO2. Urine alone or mixed with olive-oil-mill waste waters (O), poultry litter (P) or meat bone meal (M) was used on the absorption of CO2 from a gas bottle. The absorption capacity (1.35 - 2.85 gCO2/gNH4) was bigger than other solvents such as ammonia and amines. The range of CO2 absorption was significantly bigger for the organic mixtures P and PM with urine (9.1 - 11.8) g/L than urine alone 6.5 g/L. These organic wastes could be used to increase CO2 absorption in urine and reduce gas emissions.

表面活性剂对水驱普通稠油油藏的乳化驱油机理

为了研究乳化降黏驱油剂对不同渗透率的水驱普通稠油油藏的驱油效率和孔隙尺度增效机理,选取了烷基酚聚氧乙烯醚(J1)、α-烯基磺酸盐类表面活性剂(J2)、十二烷基羟磺基甜菜碱(J3)、J3与烷基酚聚氧乙烯醚羧酸盐复配表面活性剂(J4)作为驱油剂,开展了4种驱油剂一维驱油和微观驱油模拟实验,明确了乳化降黏驱油剂在孔隙尺度的致效机理。结果表明,降低界面张力对提高驱油效率的作用大于提高乳化降黏率。在油藏条件下,乳化降黏驱油剂需要依靠乳化降黏和降低界面张力的协同增效作用,才能大幅提高驱油效率。乳化降黏驱油剂的乳化能力越强、油水界面张力越低,驱油效率增幅越大。当化学剂乳化降黏率达到95%时,油水界面张力从10^(-1)mN/m每降低1个数量级,化学剂在高渗透和低渗透岩心中的驱油效率依次提高约10.0%和7.8%。乳化降黏驱油剂注入初期通过降低界面张力,使得高渗透岩心和低渗透岩心中的驱替压力分别为水驱注入压力的1/2和1/3,从而提高注入能力。注入后期大块的原油被乳化形成大量不同尺寸的油滴,增强原油流动性,提高驱油效率。乳化形成的界面相对稳定的稠油油滴,能暂堵岩石的喉道和大块稠油与岩石颗粒形成的通道。油滴的暂堵叠加效应,使高渗透和低渗透岩心的驱替压差分别为水驱压差的5.2倍和32.3倍,大幅提高了注入压力,从而扩大平面波及面积。降黏驱油剂驱油实现了提高驱油效率的同时扩大波及范围。研究结果为水驱稠油开发用驱油剂的研发提供参考,为大幅提高水驱普通稠油采收率奠定基础。

乳化沥青提高原油采收率研究进展

乳化沥青具有注入性能好、封堵强度高等优点,作为一种选择性堵剂在油田提高采收率领域比其他化学剂体系更具应用潜力。本文总结了国内乳化沥青堵水体系的开发历程及现场选择性堵水的应用效果。通过调研近年来国内外文献,概述了乳化沥青堵水的作用机理,一种是作为乳液的作用机理,主要是乳液颗粒被变形捕获产生贾敏效应和乳液液滴的机械滞留使水的流动阻力增大;另一种是其分散相也就是乳液破乳后沥青的作用机理,主要是沥青黏附在岩壁上起到的堵水作用。同时,总结了乳化沥青稳定的主要影响因素,包括温度、水相中的电解质浓度和pH值以及分散相中的沥青质,并且论述了各因素影响乳化沥青稳定性的作用机理。最后,详细叙述了乳化沥青应用于油田调剖堵水领域的最新研究进展,研究表明乳化沥青不仅具有优异的封堵效果,还具有独特的封堵选择性。此外,乳化沥青还能与CO_(2)吞吐、泡沫调驱组成复合增产技术进行现场应用,并且指出了乳化沥青应用于调剖堵水领域存在的问题与未来展望。

近临界水处理废次烟叶工艺条件及优化

为了探究近临界水处理废次烟叶制备生物油的最佳工艺条件,本文采用单因素试验设计,考察反应温度、固液比、保温时间对烟叶生物油产率的影响,并通过正交试验,对近临界水处理废次烟叶的工艺条件进行优化。结果表明:近临界水液化烟叶的最佳处理组合为反应温度260℃,保温时间15min,固液比4∶50,此条件下烟叶生物油产率为57.68%。使用GC-MS(气相色谱-质谱联用仪)分析对水溶性油和残渣油的成分进行表征,结果显示,在最佳提取工艺条件下,从水溶性油中共分离出69种化学成分,以酚类为主,占总量的49.39%,其次为杂环类,占总量的25.69%;从残渣油中共分离出37种化学成分,以酯类、酮类为主,分别占总量的25.66%、20.21%。本方法遵循绿色提取理念,以水为溶剂,对环境友好,与传统提取方法相比,生物油产率高,致香成分丰富,为废次烟叶处理提供了新的途径。

油水乳化胶凝作用对蜡沉积影响的定量表征

通过对乳液黏温曲线变化规律进行挖掘,对凝油团形成过程定量表征,推导得出凝油团形成的数学关系表达式,将胶凝过程细化为凝油团形成和黏附两个阶段。通过蜡沉积的温度条件,发现随着沉积管壁的温度降低,凝油团形成系数逐渐增大,胶凝作用逐渐显著,即在沉积初期蜡沉积的厚度迅速增加,这与蜡沉积实验结果相吻合。

陵水区块超深水高性能恒流变油基钻井液技术

超深水钻井不仅面临低温、井壁不稳定、地层安全作业压力窗口窄以及井眼清洁困难等问题,还对钻井液的性能提出了更高的要求。通过对乳化剂的分子结构进行设计,研制出一种同时具备乳化和流型调控作用的新型乳化剂KMUL,并以此为主要处理剂,构建了一套适用于南海西部陵水区块超深水工况的高性能恒流变油基钻井液,并对钻井液性能进行了评价。结果表明:该钻井液具有良好的恒流变特性,在温度为2~150℃、压力为0~56 MPa范围内的流变性能较为稳定;钻井液的抗污染能力较强,当岩屑和海水的加量为15%时,钻井液的综合性能比较稳定;钻井液的储层保护效果较好,岩心渗透率恢复值能达到92%以上;钻井液的生物毒性较低,具备良好的环境保护性能。LS-C超深水井的现场应用结果表明,不同井深的现场钻井液流变性能和破乳电压均比较稳定,钻井液当量循环密度始终维持在低位,施工过程顺利,井筒直径规整,未出现井下复杂情况。研究结果表明,该高性能恒流变油基钻井液满足陵水区块超深水钻井施工的需求。

利用AFM探究聚合物和表面活性剂对油滴间稳定性的影响

采用原子力显微镜(AFM)探究水中油滴之间的相互作用,并考察了聚合物聚(4-苯乙烯磺酸钠)(PSS)和阴离子表面活性剂十二烷基硫酸钠(SDS)对油滴稳定性的影响。采用分子动力学模拟软件模拟了PSS和SDS在水中的相互作用。结果表明:在不含聚合物和表面活性剂的盐溶液中油滴容易聚并;当水溶液中加入100 mg/L的PSS会使油滴稳定,这主要是由于PSS吸附层提供了空间位阻,有效阻止了油滴之间的聚并作用;然而,100 mg/L PSS和0.1 mM/L SDS共存时会导致油滴再次聚并,这是因为PSS和SDS同时存在时,两者易形成团簇,只有少部分PSS吸附到界面,此时PSS无法形成有效的空间位阻,导致油滴在相互靠近时发生聚并,从而影响了水包油体系的稳定性。

100%RAP的废机油-乳化沥青冷再生沥青及混合料性能试验

基于100%RAP再生率,采用废机油预润再生老化沥青,并对其进行三大指标和红外光谱试验,同时对其混合料进行干湿劈裂试验、冻融试验及马歇尔稳定度试验,以评价其力学及水稳性能。试验结果表明:废机油可以在三大指标上使老化沥青接近新沥青,但掺量过高会导致软化点过低,使冷再生混合料性能降低;红外光谱表明废机油具有降低亚砜基和羰基极性官能团指数的作用;经过废机油预润再生后,RAP表面老化沥青初步激活,与乳化沥青更好的粘结,可提高混合料的强度及水稳性能;废机油掺量为10%的乳化沥青再生混合料性能较差,这与废机油过量有关。

低油水比油基钻井液体系研究

现阶段国内大量应用的油基钻井液体系油水比居高不下,且由于部分处理剂性能欠佳导致在钻井液体系中用量过大,两者叠加为降低油基钻井液体系综合成本带来极大困难。为此,提出了低油水比油基钻井液体系设计思路,并以此为指导研选了油基钻井液体系关键处理剂,通过配伍性实验构建了低油水比油基钻井液体系配方,并开展了现场应用。以保障在良好的乳化稳定性、流变性和较强的随钻封堵性基础上有效降低油水比为整体思路,研制了多活性点新型乳化剂,增加了分子内活性吸附基团的数量,在低油水比的情况下表现出良好的乳化稳定性和流变性;优选了具有良好增黏提切效果且可降低滤失量的有机土、具有良好降滤失效果的降滤失剂、具有改善流变性且提高乳化稳定性的流型调节剂,以3种处理剂为核心构建了低油水比油基钻井液体系;该体系在70/30的油水比条件下老化前后破乳电压>1000 V,在60/40的油水比条件下老化前后破乳电压>500 V,动塑比均>0.40,具有良好的乳化稳定性和流变性;低油水比油基钻井液体系在12口页岩水平井开展了现场应用,钻井液体系性能稳定、井眼净化效果良好,且乳化稳定性可控,大幅节约了基础油的用量,显著降低了油基钻井液体系的成本。

环保型聚氨酯硬泡组合聚醚

以水和正戊烷为发泡剂,开发出环保型聚氨酯硬泡组合聚醚,对水、正戊烷用量、乳化剂种类等进行了优化。结果表明:以棕榈油硬泡聚醚多元醇(棕榈油质量分数为25%~28%)为主体组分,加入少量高官能度聚醚多元醇,可提升泡沫压缩强度和尺寸稳定性;乳化剂OP-10可以改善该体系组合聚醚相容性,提高组合聚醚稳定性。在水用量为1.5份,加入乳化剂OP-10后,正戊烷用量可达到20份(质量分数为13.5%),可降低组合聚醚成本。

多巴胺改性废弃口罩制备超亲水油水分离膜

始于2019年底的新型冠状病毒(COVID-19)的传播,使得废弃口罩的处置成为人类面临的新挑战。通过在废弃口罩表面原位沉积SiO2纳米颗粒,进而接枝多巴胺(DA),制备得到性能优良的超亲水油水分离膜,改性后膜的水接触角为0°,重力作用下通量达到6953 L·m^(-2)·h^(-1),油水分离效率超过98.65%,且在不同酸碱度(pH=2~14)均表现出稳定的油水分离性能。废弃口罩改性制备油水分离膜为废弃口罩的处置及资源化利用提供了一种新思路,具有很好的社会经济效益。

乳化水含量快速观察法及原理分析

油库原油在销售前须进行乳化水含量测定,达标后才可销售。当油田产液量升高且现场采出原油含水过高时,三相分离器的处理效果会变差,影响销售和工作效率。为提高油库运行质量和工作效率,提出一种乳化水含量的快速观察法,根据原油在缸底倾斜面上的流动特征,可快速估算出油样的乳化水含量范围。实验选择刚放满原油待沉淀的储罐,从大罐放油口附近开始,自下而上依次取6个100mL油样,对比快速观察法和化验的结果。最后对快速观察法的原理进行分析。结果表明,快速观察法可以快速和较为准确地反映真实的乳化水含量,快速观察法依据的原理主要有破乳剂的作用、环境温度压力的变化、油水表面张力的差异和乳状液体系中的分子间作用力。快速观察法的提出有效提高了油库运行和工作效率。

绿色纤维素基水凝胶膜的制备及油水分离性能

以杨木粉(PF)中提取的纤维素木浆(PF-NA)为基底,通过冷冻盐析技术,利用聚乙烯醇(PVA)将LiCl颗粒包裹在纤维素骨架上制备了纤维素基(CLH)水凝胶膜。采用FTIR、SEM、XRD、XPS对CLH水凝胶膜进行了表征,对其机械、高温、耐酸碱和耐盐稳定性、自清洁和耐污性进行了测试。结果表明,CLH水凝胶膜具有三维层状结构,PVA的加入及冷冻盐析技术的利用提高了CLH水凝胶膜的力学性能。LiCl作为吸水单元分布在纤维素骨架周围,使CLH水凝胶膜具有超亲水性,水下油接触角为151°;在重力作用下,CLH水凝胶膜可以实现对油水混合物和水包油乳液的高效分离,在高温(60℃)、强酸(pH=3)和强碱(pH=13)条件下具有稳定的分离效率(≥99.8%);在循环分离12次水包机油乳液中,CLH水凝胶膜保持稳定的分离性能;CLH水凝胶膜对四氯乙烯油渍具有自清洁和耐污能力。

污水处理调节罐区设计问题分析

从系统设置、罐区布置、废气收集及处理、污油收集及处理、沉泥处理设施、系统切换、初期雨水等方面阐述某大型炼化企业污水处理调节罐区设计的主要内容,该罐区的合理设计,对提高整个污水处理系统的调节和运行稳定可起到关键作用。

化工废油水处理试验研究

由于化工企业焦炉煤气在合成氨与尿素过程中会产生大量的废油水,加上企业设备的升级改造使得生产过程中所产生的废油水也成倍增加,导致现有的油回收装置一直处于满负荷运行状态。为有效降低油回收装置废油水的处理负荷,通过采取离心分离技术对含油废水进行预处理,然后再由油回收装置进行处理,以降低油回收负荷。经废油样本分离处理试验得出:离心机进口含油废水油含量不同的样本,经离心机分离处理后,出口净液油含量达到30~50 mg/L,分离得到的废油含水量达到15%以下,处理效果较好可达到除油效果。