濮城油田沙二上2+3油藏条件下体膨剂与聚合物混合调驱实验研究

报道了4个平行双岩心组合的体膨剂与聚合物混合调驱结果。所用体膨剂为工业品,代号HLP-02,为一种预交联凝胶颗粒,平均粒度200目,在自来水中24小时膨胀倍数80-90,在矿化度120 g/L的模拟地层水中配成5g/L的悬浮液。1.8 g/L聚合物HPAM溶液,黏度25 mPa·s。实验用储层洗油岩心表面弱亲水至中性,直径2.5cm、长7-8 cm,驱替温度80℃,0.1 PV体膨剂悬浮液与0.2 PV聚合物溶液混合注入,候凝12小时。kg0.330/0.0627μm^2双岩心组合,水驱至含水100%时原油采收率为74.0%/37.9%,注入混合调驱剂后采收率增值0/2.7%;kg0.345/0.0783μm^2双岩心组合上,水驱采收率为62.0%/45.7%,调驱增值为1.0%/2.9%。kg为0.0953/0.0512和0.0903/0.0280μm^2两个双岩心组合,水驱至含水80%时的采收率分别为32.0%/27.0%和30.3%/25.8%,调驱增值分别为34.0%/33.6%和37.2%/19.4%。对于所研究的濮城油藏,在目前含水80%条件下实施体膨剂/聚合物混合调驱较好,在水驱至残余油状态时调驱效果很差,高渗油层基本不出油,低渗油层出油很少,达不到应有的采收率。讨论了油层产水率与含水率的关系。图4表1参4。

胜坨油田水膨体堵剂的研究与应用

针对胜坨油田特高含水期严重水窜的实际情况,研制了水膨体堵水调剖剂,对其调剖机理进行了阐述。运用先进的物理模拟实验对水膨体性能进行了评价,并对其进行了改进。结果表明,水膨体在75-90℃条件下,岩心突破压力梯度大于2MPa／m,堵水率大于99.9％,10倍孔隙体积水冲刷后堵水率大于95％,具有良好的堵水调剖性能。该堵剂在胜坨油田的矿场应用中取得了较好的效果。

含油污泥体膨颗粒调剖剂的研究

研究了利用含油污泥制备体膨颗粒深部调剖剂的技术。试验表明,在单体浓度20%、干泥含油率14%、污泥占单体质量110%、交联剂占单体质量0.14%、反应温度35℃条件下,聚合产物性能较好。胶块造粒过程中需加入适量减阻剂,粒度可根据实际要求调整。含油污泥体膨颗粒调剖剂在自来水中和0.5%NaCl水溶液中的膨胀倍数分别为40倍和15倍,膨胀后强度和弹性好。

预交联水膨体调剖剂的室内评价与应用

对水膨体调剖剂进行了测定和评价。结果表明 ,在 75～ 90℃条件下 ,预交联水膨体调剖剂的岩芯突破压力梯度大于 2MPa/m ,堵水率大于 99.9% ,10PV水冲刷后堵水率大于 95 %。现场试验表明 ,调剖后增油效果明显。

耐温抗盐水膨体调驱剂的研制

中原油田进入注水开发中后期,油田稳产难度越来越大,对水膨体油藏调驱剂的需求量越来越大。采用溶液聚合法合成了耐温抗盐的水膨体,研究了单体组成、单体浓度、引发剂用量、交联剂用量、反应温度等因素对其性能的影响。通过和油田现用的水膨体的膨胀倍数、膨胀速率和凝胶强度对比分析,表明合成的水膨体的凝胶强度大于油田现用的水膨体,膨胀时间长,耐温抗盐性好。

体膨型预交联调驱剂TY-101在港西18-6-1井的应用

本文简述了国内调剖堵水剂及技术概况 ,阐述了体膨型预交联调驱剂TY - 10 1的性能指标和特点、调驱机理以及在大港油田西 18- 6 - 1注水井的应用状况 ,总结了体膨型预交联调驱剂及技术的现场应用效果 。

水膨体调剖有效期影响因素分析及对策

水膨体堵剂性能、剂量大小、油藏条件和注采管理等是影响其调剖有效期的主要因素 ,为延长调剖有效期 ,提高调剖效果 ,通过对其影响因素的分析 ,提出了相应的对策 ,对矿场应用具有指导作用。

影响水膨体调剖效果的因素与对策

在使用水膨体调剖剂进行施工时 ,由于注入压力控制不当、注入剂量不合适等因素 ,影响到堵水调剖的效果。通过室内物理模型试验 ,得出对注入压力和注入剂量的认识 。

超低渗裂缝油藏深部调剖堵剂体系适应性研究

针对长庆油田吴410区超低渗透、裂缝性油藏,评价了甲叉基聚丙烯酰胺类化学成胶堵剂及体膨凝胶颗粒堵剂对裂缝的封堵性能。甲叉基聚丙烯酰胺类化学成胶堵剂具有地面粘度低(≤34mPa·s,泵注性能好)、成胶时间可控(16～72h,60℃)、堵水选择性好(油相岩心封堵率≤40.7%,水相岩心封堵率≥97.6%;油相岩心突破压力≤0.91MPa/m,水相岩心突破压力≥1.75MPa/m)、封堵率高等特点;体膨凝胶颗粒堵剂具有淡水中膨胀率高、盐水中膨胀率低、膨胀后的凝胶颗粒具有变形通过性能等特点。确定了针对吴410区长6超低渗裂缝性油藏调剖工艺的"前置甲叉基聚丙烯酰胺类化学成胶堵剂+体膨凝胶颗粒堵剂+柔性胶粉堵剂封口"的调剖剂体系及"大剂量、小排量、多段塞、控压力"调剖工艺,并进行了现场工艺试验。统计2012年吴410区3口典型调剖井,平均注水压力上升1.5MPa,至目前,单井组内油井平均增油已超200t,调剖增油效果良好。同时对调剖失败井进行对比总结分析,为以后堵水工艺提供参考意见。

区块整体调驱工艺技术在明一东块的应用

本文针对明一东块层间、层内矛盾突出，吸水剖面极不均匀，注入水沿高渗透层无效循环，区块主力层系进入高含水期的问题，采用DJ凝胶调驱、SP水膨体堵剂、酸性单液法调驱等整体调驱技术，使油井整体受效，达到了提高油藏水驱控制和动用程度，减缓油藏递减，改善区块整体开发效果的目的。

基于核磁共振T_2分布的自生气可膨胀泡沫冻胶调堵机制

边底水活跃油藏常采用大剂量多段塞调堵或打人工隔板抑制底水上升。为解决传统工艺堵剂用量大、成本高的问题,研制在地层可自发膨胀的自生气泡沫冻胶体系,以成胶强度、成胶时间、成胶体积为评价指标,通过正交实验优选最优体系,分析自生气可膨胀泡沫冻胶性能的影响因素。结果表明:自生气泡沫冻胶体系具有体膨倍数高、封堵性能好的优点,可以实现边底水水侵治理、封堵封窜的目的;在温度为60℃、pH值为6.5~7.4时体系性能最佳,此时成胶时间28 h,成胶强度G级,体膨倍数超过300%;注入的泡沫冻胶对岩心大孔隙进行了有效封堵,减少了岩心的非均质性差异,泡沫冻胶具有显著的体膨调堵性能;可通过调节pH值实现对自生气可膨胀泡沫冻胶性能的调控,以满足不同储层堵剂的差异性放置需求。

Study of the Liquid Phase Volume Expansion for CO_2/Organic Solvent Systems

The supercritical antisolvent （SAS） process has been developed in recent years for the tormation of nanoand micro-particles. It is necessary to study the liquid phase volume expansion （LPVE） and find the relationships between the operating conditions and the LPVE in order to develop a practical method for determining the operation conditions and selecting an organic solvent for SAS process. The PR equation of state with vdW-1 mixing rule is used to calculate the LPVE for CO2/toluene, CO2/acetone and CO2/ethyl acetate systems, and the results show that the LPVE for each CO2/organic solvent system decreases as the temperature increases. The relationship between the LPVE and the solubility of CO2 in the liquid phase for CO2/organic solvent systems is investigated, and the results show that the LPVE is determined directly by the solubility of CO2 in the liquid phase, xCO2, and can be related to xCO2 independently. No matter what system of CO2/organic solvent is and how different the temperature is, the LPVEs have little difference as long as the solubility of CO2 in the liquid phase, xCO2, keeps constant. The lower temperature is always favorable to the SAS process. The higher the solubility of CO2 in an organic solvent under certain operation condition, the more suitable it is to the SAS process.

Influence of CaO-based expansive agent,superabsorbent polymers and curing temperature on pore structure evolution of early-age cement paste

Cracks easily generate in concrete at early age owing to the shrinkage deformation.CaO-based expansion agent(CEA)and superabsorbent polymers(SAP)have been extensively used for the mitigation of concrete shrinkage.The macroscopic properties of concrete are highly determined by the microstructure.In this study,the influence of CEA and SAP addition on the pore structure evolution of cement paste under different curing temperatures was evaluated via low-field nuclear magnetic resonance spectroscopy.Test results indicated that,in cement paste,a higher CEA content led to a higher porosity and a larger most probable pore diameter(MPPD).Meanwhile,SAP addition increased the porosity and MPPD of CEA cement paste at early age but decreased them after 7 d,and a higher SAP content always brought a higher porosity and MPPD.Furthermore,the addition of SAP led to a lower porosity and MPPD of CEA cement paste than that of plain cement paste after 14 d.Moreover,the porosity and MPPD of CEA cement paste decreased first and subsequently increased as the curing temperature raised.