基于多臂结构抗高温高盐降滤失剂的合成及作用机制

以季戊四醇烯丙基醚为核心,合成具有多臂结构的超支化聚合物降滤失剂JHPAN,研究和分析JHPAN配制的钻井液在高温、高盐条件下的流变性能、降滤失性能和降滤失作用机制。结果表明:在加量(质量分数)为1.0%时,220℃老化前后,淡水浆的表观黏度分别为10.5和10.0 mPa·s,塑性黏度分别为9.0和11.0 mPa·s,动切力分别为1.5和1.0 Pa;在加量为1.0%时,220℃老化16 h后,饱和NaCl盐水浆的API滤失量和高温高压滤失量分别为11.8和25.5 mL;JHPAN的多臂结构中含有大量的吸附基团和抗温耐盐基团有助于钻井液高温、高盐环境下形成致密的泥饼,从而提升其降滤失效果。

抗220℃高温两性离子聚合物降黏剂的制备与性能

针对当前高温高密度水基钻井液流变性调控难题,基于分子结构优化设计和单体优选,制备了新型抗高温两性离子聚合物降黏剂HP-THIN。通过正交实验与单因素实验相结合的方法,对HP-THIN的制备条件进行了优化。采用红外光谱仪、乌氏黏度计和热重分析仪等分别对HP-THIN的分子结构、热稳定性以及相对分子质量进行表征和测定,研究了HP-THIN在220℃超高温条件下对淡水浆、盐水浆、含钙浆和高密度复合盐水浆等不同类型钻井液基浆的降黏性能。在室温下,测试了HP-THIN对基浆黏土颗粒吸附能力、Zeta电位和粒径的影响,并与国内外同类产品(Polythin和xy-27)进行了对比。结果表明,合成降黏剂HP-THIN的反应温度为60℃,反应时间为3 h,引发剂用量和链转移剂用量均为反应单体总量的1%,单体总质量分数为30%;单体AM、AA、AMPS、PTM物质的量比为1.9∶7.5∶2.1∶1。该聚合物的分子结构中含有设计官能团,其黏均相对分子质量约为8211,且具有较好的热稳定性。220℃老化后,HP-THIN在最优加量(0.3%)下对淡水基浆、盐水基浆、含钙基浆和高密度复合盐水基浆的降黏率分别达86%、72%、73%和51%,HP-THIN对不同类型钻井液基浆的高温降黏效果均优于国内外同类产品,相对于xy-27和Polythin,降黏剂HP-THIN对基浆黏土吸附能力强、Zeta电位绝对值大、黏土颗粒尺寸小,可以更好地消除黏土颗粒间网状结构,降低钻井液黏度,具有良好的应用前景。

硫化脂肪酸酯的合成及其在高温高压钻井液中的应用

大位移井高温储层水基钻井液在高负荷、高盐度、高温条件下,液体润滑剂的润滑性能不足,导致憋钻具、卡钻和钻具磨损等问题,实验室合成了一种硫化脂肪酸酯,将其与润滑剂复配后得到复合硫剂(QT311),添加至HTFlow高温高压水基钻井液中,能够提升钻井液的润滑性能。通过四球试验机测试可知,添加1%QT311后,其COF能够下降64%,磨斑直径降低43%,润滑性能优于几款常用市售钻井液用润滑剂。通过电镜分析摩擦副表面,发现硫剂在摩擦过程中发生摩擦化学反应生成硫-铁极压膜,从而提升钻井液的减摩性能,且该剂在HTFlow钻井液体系中表现出优异的配伍性、抗水解性能、抗盐及抗温性能。试验结果为钻井液用润滑剂的进一步研究提供参考。

有机层状硅酸盐改善油基钻井液沉降稳定性室内评价

基于油基钻井液有机土有机改性剂阳离子受高温易分解脱附,引起钻井液性能变差、加重材料沉降等问题,利用六水合氯化镁和十六烷基三甲氧基硅烷等为原料,合成了一种适用于柴油基钻井液体系的有机土(有机层状硅酸盐),用于改善油基钻井液的沉降稳定性;通过傅里叶红外光谱、X-射线衍射以及室内钻井液沉降实验进行结构表征和沉降稳定性评价。结果表明:该有机硅酸盐材料具备2∶1层状硅酸盐结构和以Si—C共价键连接的不对称链状有机官能团结构,且300℃无明显热分解;相比于大庆油田常用油基钻井液,该有机层状硅酸盐提高了油基钻井液的动切力、动塑比和储能模量,明显改善了1.4~2.0 g·cm^(-3)密度范围、150℃以下老化温度油基钻井液的悬浮性能和沉降稳定性能。

一种抗超高温配位键合型低聚物降黏剂

针对高密度水基钻井液高温增稠引发的滤失量大、ECD与内耗高、流动性下降甚至完全丧失难题,在AAAMPS聚有机酸降黏剂分子中引入富含大量邻苯二酚基团的单宁酸,采用自由基聚合法研制了一种抗超高温配位键合型低聚物降黏剂AA-AMPS-TA,并通过正交实验明确了PAAT的最优合成条件。表征并评价了PAAT的降黏性能,结果表明:引入TA后,PAAT的红外光谱出现了源于酚羟基的分子内氢键吸收峰,且因其分子结构中引入了大量苯酚基团,显著提升了热稳定性,分解温度接近500℃;PAAT可降低低浓度膨润土浆和7%膨润土+8%高岭土的高浓度混合黏土浆黏度,在高密度水基钻井液体系中降黏率达26.5%,240℃热滚后降黏率达44.4%。采用Zeta电位与粒径分析验证了PAAT的吸附降黏机理,并在蓬深101井中现场应用,控制了井浆高温下黏度、切力增涨,降黏效果良好。

聚合物及小分子类页岩抑制剂研究进展

本文概述了聚合物及小分子类页岩抑制剂研究进展,特别关注国内外近年的相关研究成果。文章系统介绍了用于表征黏土水化膨胀和评价抑制剂性能的实验方法。此外,文章分类讨论了无机盐类、聚醚胺类、天然改性材料和聚合物类抑制剂的特点,展望了水基钻井液中页岩抑制剂的应用方向和主要发展趋势。

白垩侏罗系地层钻井法凿井钻井液黏度突变致因分析

在西部地区可可盖煤矿钻井法凿井过程中,穿越白垩侏罗系地层时遇到钻井液黏度突然增大的问题,严重影响了钻进速度。为此,通过实验方法探究了钻井液黏度突变的原因。实验中添加了三聚磷酸钠、羧甲基纤维素钠等外加剂以及不同层位的岩粉,并观察了钻井液黏度的变化。对比实验分析发现,三聚磷酸钠降低了钻井液黏度,而羧甲基纤维素钠增加了其黏度。添加293、391m层位的砂岩岩粉对于钻井液黏度几乎没有影响,漏斗黏度始终保持在27s左右;然而,在添加276、402m层位泥岩岩粉后,可以使钻井液黏度增大。通过XPS半定量分析相应样品以及采用XRF半定量分析和SEM电镜分析相应的钻井液发现:白垩侏罗系泥岩含有较高浓度镁元素,在该地层进行钻井法凿井时会导致Mg^(2+)浓度上升;随着Mg^(2+)浓度增加,高浓度Mg^(2+)促使蒙脱石层间阳离子与之交换并进入其空间结构中,从而引起蒙脱石絮凝程度提高并导致整体钻井液黏性增大。

一种抗高温梳型两性离子聚合物降黏剂

针对深井超深井钻井中高密度水基钻井液黏度高、易高温增稠等流变性调控难题,以对苯乙烯磺酸钠盐、2-丙烯酰胺基-2-甲基丙磺酸、2-烯丙基-2-甲基氯化铵、烯丙基聚氧乙烯醚为单体,合成了一种抗高温梳型两性离子聚合物降黏剂ZT-1。采用红外光谱表征了降黏剂的分子结构,验证梳型两性离子聚合物合成的成功,采用热重分析表征了降黏剂的热稳定性,其分解温度达250℃。ZT-1具有良好的抗高温耐盐钙降黏分散性能,抗温240℃,可抗饱和盐,抗2%氯化钙;ZT-1加量为0.3%时,老化温度为200℃,在评价浆中的降黏率可达77.7%,在高密度(2.4 g/cm^(3))水基钻井液体系中表观黏度的降低率达33%,塑性黏度的降低率达14%,动切力降低率达67%。ZT-1性能优于阴离子降黏剂磺化丹宁以及常规线性两性离子聚合物降黏剂XY-27和ADS共聚物,这种梳型两性离子聚合物降黏剂在超高温超高密度钻井液中具有良好的应用前景。

聚合物型钻井液降滤失剂的合成及其性能研究

以N,N-二甲基丙烯酰胺(DMAM)、顺丁烯二酸酐(MA)和二甲基二烯丙基氯化铵(DMDAAC)为改性单体,与丙烯酰胺(AM)聚合,采用水溶液聚合法合成了P(AM/DMAM/DMDAAC/MA)四元共聚物钻井液降滤失剂,研究了pH、单体用量、聚合时间等因素对聚合物降滤失性能的影响。结果表明:聚合反应温度为55℃、反应时间为3 h、AM/DMAM/DMDAAC/MA单体质量比为7∶2∶2∶0.5、引发剂质量分数为0.5%时,得到的四元共聚物黏均分子量为3.98×10^(6);当温度达到180℃、四元共聚物在基浆中的加量为0.5%时,滤失量保持在7.8 mL,符合SY/T 5621—93的API滤失量标准。

Synthetic polymers:A review of applications in drilling fluids

With the growth of deep drilling and the complexity of the well profile,the requirements for a more complete and efficient exploitation of productive formations increase,which increases the risk of various complications.Currently,reagents based on modified natural polymers(which are naturally occurring compounds)and synthetic polymers(SPs)which are polymeric compounds created industrially,are widely used to prevent emerging complications in the drilling process.However,compared to modified natural polymers,SPs form a family of high-molecular-weight compounds that are fully synthesized by undergoing chemical polymerization reactions.SPs provide substantial flexibility in their design.Moreover,their size and chemical composition can be adjusted to provide properties for nearly all the functional objectives of drilling fluids.They can be classified based on chemical ingredients,type of reaction,and their responses to heating.However,some of SPs,due to their structural characteristics,have a high cost,a poor temperature and salt resistance in drilling fluids,and degradation begins when the temperature reaches 130℃.These drawbacks prevent SP use in some medium and deep wells.Thus,this review addresses the historical development,the characteristics,manufacturing methods,classification,and the applications of SPs in drilling fluids.The contributions of SPs as additives to drilling fluids to enhance rheology,filtrate generation,carrying of cuttings,fluid lubricity,and clay/shale stability are explained in detail.The mechanisms,impacts,and advances achieved when SPs are added to drilling fluids are also described.The typical challenges encountered by SPs when deployed in drilling fluids and their advantages and drawbacks are also discussed.Economic issues also impact the applications of SPs in drilling fluids.Consequently,the cost of the most relevant SPs,and the monomers used in their synthesis,are assessed.Environmental impacts of SPs when deployed in drilling fluids,and their manufacturing processes are identified,together with advances in SP-treatment methods aimed at reducing those impacts.Recommendations for required future research addressing SP property and performance gaps are provided.

一种钻井液润滑剂的制备及其性能评价

基于现有钻井液润滑剂吸附、润滑抗磨性能差的问题,本文以多元醇、多元羧酸为原料制备一种强吸附、抗剪切的润滑剂(HR-1),采用极压润滑仪和四球摩擦试验机评价其润滑抗磨性能,并通过扫描电镜&能谱仪对其润滑机理进行探讨。实验发现,润滑剂HR-1显著提高了膨润土基浆的润滑抗磨性能,优于现场应用效果较好的润滑剂BLOE;另外,润滑剂HR-1使钢球表面的C元素含量升高以及Na、O元素含量降低,这表明,润滑剂HR-1的加入使润滑剂分子取代了原本吸附在钢球表面的钠基膨润土,且降低了摩擦腐蚀产物(Fe_(3)O_(4))的形成,起到润滑抗磨作用,达到保护金属的目的。

抗高温抗盐水基降滤失剂的合成与性能评价

针对现有水基钻井液用降滤失剂抗高温和抗盐能力不足的问题,提出以腐植酸钠(Na Hm)、N,N-二甲基丙烯酰胺(NNDMA)、二甲基二烯丙基氯化铵(DMAAC)、对苯乙烯磺酸钠(SSS)为单体,过硫酸铵为引发剂,通过水溶液自由基聚合制备了一种抗高温抗盐降滤失剂。采用正交实验确定最佳反应条件:m(Na Hm∶NNDMA∶DMDAAC∶SSS)=2∶6∶2∶2,单体浓度30%,引发剂加量1.0%,反应温度65℃。利用红外光谱、热失重、核磁共振氢谱及环境扫描电镜对产物进行了结构表征和分析,证明四元聚合物制备成功,并通过抗高温、抗盐性能评价以及和市面常用产品对比,实验发现所合成的降滤失剂具有良好的抗高温抗盐性能,230℃老化16 h后,中压滤失量为5 m L,高温高压滤失量为22 m L,抗Na Cl 25%,抗Ca Cl21.5%,在高温高盐水基钻井液中具有广阔的应用前景。

深共晶溶剂抑制页岩水化的应用与展望

钻井过程中页岩水化常会诱发严重的井下安全事故,提高页岩井壁稳定性将极大地提高钻井成功率。深共晶溶剂(Deep eutectic solvent,DES)作为一种新型的绿色试剂,其性质与离子液体相类似,用途较为广泛。然而其作为水基钻井液添加剂在抑制页岩水化上的应用潜力尚未引起足够重视。相较于其他水基钻井液添加剂,DES具有不易燃、不易爆、无毒、易降解、电化学和热稳定性好等优点,并且DES价格便宜,来源广泛。在全面归纳总结DES的物理化学性质的基础上,讨论了DES作为水基钻井液添加剂抑制页岩水化的机理,并通过对DES的成本、对钻井液性能的影响进行分析,阐明了DES作为水化抑制剂在水基钻井液中的应用潜力。研究结果对DES在抑制页岩水化上的应用及其推广具有重要意义。

破碎地层护壁防塌剂研制及性能评价

针对顺北奥陶系碳酸盐岩地层揭开后坍塌掉块严重,遇阻卡钻频发的难题,以二甲基二烯丙基氯化铵、N,N-二甲基丙烯酰胺及自制含甲氧基硅烷基团的有机硅单体为原料,合成了可与碳酸盐岩地层发生键合反应的抗高温有机硅护壁防塌剂SMHB-1。通过红外光谱、核磁共振氢谱及热重等表征了产物的分子结构及稳定性,并评价了其搭接抗剪切强度、降滤失性能及封堵性能等进行了研究。结果表明,1.5%SMHB-1溶液处理过的碳酸盐岩岩心片的搭接抗剪强度可达到0.2 MPa, 160℃老化16 h后1%SMHB-1可使4%土浆滤失量降低60.7%,SMHB-1可降低体系渗透率降约61.68%,并且与现场钻井液的配伍性能好。以SMHB-1为核心的水基护壁防塌钻井液体系在顺北X井奥陶系地层进行应用,奥陶系井壁稳定性好,没有掉块产生,扭矩平稳,起下钻顺利,无阻卡,试验井段平均井径扩大率8.6%~11.4%。

高性能密胺降滤失剂的研究

用多聚甲醛与三聚氰胺合成了密胺树脂,对经黏土改性后的丙烯酰胺类聚合物进行包覆,制备了一种抗温抗盐的钻井液降滤失剂。采用单因素实验对样品的加量及耐温耐盐性能进行了评价,实验结果表明,2号样品的性能最佳。在盐浓度为8%的钻井液中,加量为1.5%时,经100℃老化后,2号样品的加量比对照样品减少3%,滤失率为77.7%,性能更优良。

水基钻井液用抗高温耐盐降滤失剂的制备与性能评价

针对深井和超深井钻探中水基钻井液在高温高盐环境下性能衰减的问题,通过自由基聚合法合成了一种新型抗高温耐盐降滤失剂。通过引入2-丙烯酰胺-2-甲基丙磺酸、丙烯酰胺和对苯乙烯磺酸钠作为单体,并使用N,N'-亚甲基双丙烯酰胺作为交联剂,优化了聚合条件。结果表明,在最优单体浓度2.0 mol·L^(-1)、最优单体配比n(AMPS)∶n(AM)=4∶1和最佳反应温度80℃的条件下,合成的降滤失剂HTSR展现出优异的降滤失性能,其降滤失率达到75.2%,并在200℃的高温条件下保持了较低的滤失量(7.8 mL)。此外,HTSR在8%NaCl溶液中的滤失量仅为8.6 mL,表现出良好的抗盐性能。热重分析结果显示,HTSR在270℃之前的质量损失较小,具有出色的热稳定性。红外光谱分析进一步证实了其化学结构的正确性。研究成果为高温高盐环境下水基钻井液的降滤失剂设计提供了新的思路,对提高深井和超深井钻探的钻井液性能具有重要意义。

不同粒径淀粉对水基钻井液性能的影响

淀粉具有来源广、无毒易降解的特点,可有效降低钻井液泥饼厚度,常被作为降滤失剂应用于水基钻井液中。为了探讨不同粒径淀粉对钻井液增粘、降滤失效果的影响,通过球磨方法制备微细淀粉,使其评价粒径从38.87μm降低至10.32μm,增大了淀粉的比表面积,可在钻井液中与更多的水分子接触,提高淀粉分子上的氢键与水分子之间的水化作用和黏土颗粒的吸附能力,其降滤失效果优于玉米淀粉、羧甲基纤维素(CMC),羟乙基纤维素(HEC)。淀粉粒径分布的改变影响了水基钻井液的流变性以及降滤失性能,这一发现以期为钻井现场优选淀粉降滤失剂提供技术指导。

A novel responsive stabilizing Janus nanosilica as a nanoplugging agent in water-based drilling fluids for exploiting hostile shale environments

Thermo-responsive nanocomposites have recently emerged as potential nanoplugging agents for shale stabilization in high-temperature water-based drilling fluids(WBDFs). However, their inhibitory properties have not been very effective in high-temperature drilling operations. Thermo-responsive Janus nanocomposites are expected to strongly interact with clay particles from the inward hemisphere of nanomaterials, which drive the establishment of a tighter hydrophobic membrane over the shale surface at the outward hemisphere under geothermal conditions for shale stabilization. This work combines the synergistic benefits of thermo-responsive and zwitterionic nanomaterials to synchronously enhance the chemical inhibitions and plugging performances in shale under harsh conditions. A novel thermoresponsive Janus nanosilica(TRJS) exhibiting zwitterionic character was synthesized, characterized,and assessed as shale stabilizer for WBDFs at high temperatures. Compared to pristine nanosilica(Si NP)and symmetrical thermo-responsive nanosilica(TRS), TRJS exhibited anti-polyelectrolyte behaviour, in which electrolyte ions screened the electrostatic attraction between the charged particles, potentially stabilizing nanomaterial in hostile shaly environments(i.e., up to saturated brine or API brine). Macroscopically, TRJS exhibited higher chemical inhibition than Si NP and TRS in brine, prompting a better capability to control pressure penetration. TRJS adsorbed onto the clay surface via chemisorption and hydrogen bonding, and the interactions became substantial in brine, according to the results of electrophoretic mobility, surface wettability, and X-ray diffraction. Thus, contributing to the firm trapping of TRJS into the nanopore structure of the shale, triggering the formation of a tight hydrophobic membrane over the shale surface from the outward hemisphere. The addition of TRJS into WBDF had no deleterious effect on fluid properties after hot-treatment at 190℃, implying that TRJS could find potential use as a shale stabilizer in WBDFs in hostile environments.

A micro-crosslinked amphoteric hydrophobic association copolymer as high temperature-and salt-resistance fluid loss reducer for water-based drilling fluids

During ultradeep oil and gas drilling,fluid loss reducers are highly important for water-based drilling fluids,while preparing high temperature-and salt-resistance fluid loss reducers with excellent rheology and filtration performance remains a challenge.Herein,a micro-crosslinked amphoteric hydrophobic association copolymer(i.e.,DADC)was synthesized using N,N-dimethyl acrylamide,diallyl dimethyl ammonium chloride,2-acrylamido-2-methylpropane sulfonic acid,hydrophobic monomer,and pentaerythritol triallyl ether crosslinker.Due to the synergistic effects of hydrogen bonds,electrostatic interaction,hydrophobic association,and micro-crosslinking,the DADC copolymer exhibited outstanding temperature-and salt-resistance.The rheological experiments have shown that the DADC copolymer had excellent shear dilution performance and a certain degree of salt-responsive viscosity-increasing performance.The DADC copolymer could effectively adsorb on the surface of bentonite particles through electrostatic interaction and hydrogen bonds,which bring more negative charge to the bentonite,thus improving the hydration and dispersion of bentonite particles as well as the colloidal stability of the drilling fluids.Moreover,the drilling fluids constructed based on the DADC copolymer exhibited satisfactory rheological and filtration properties(FLHTHP=12 m L)after aging at high temperatures(up to200℃)and high salinity(saturated salt)environments.Therefore,this work provided new insights into designing and fabricating high-performance drilling fluid treatment agents,demonstrating good potential applications in deep and ultradeep drilling engineering.

树莓状聚合物纳微米封堵剂的制备及性能评价

为解决硬脆性泥页岩地层井壁失稳问题,国内外通过乳液聚合方法研发了纳微米封堵剂,但在应用过程中存在纳微米尺寸不易保持、钻井液易起泡等问题。为此,以苯乙烯、甲基丙烯酸甲酯作为聚合反应单体,二乙烯基苯作为聚合反应内交联剂,以淀粉纳米粒子为乳液稳定剂,通过Pickering乳液聚合法制备了一种用于水基钻井液的树莓状纳微米封堵剂(即表面吸附淀粉纳米粒子的交联P(St-co-MMA)微球)。对树莓状纳微米封堵剂的粒子直径、形貌及结构特点进行了表征分析,并对其性能进行了室内评价试验,结果发现,树莓状纳微米封堵剂能显著降低聚合物氯化钾钻井液的API滤失量和渗透封堵仪(PPA)滤失量,可有效封堵地层纳微米级孔隙,解决了钻井液的起泡问题,且对钻井液流变性能影响较小,能够满足页岩油气钻井井壁稳定的需求。