低渗透储层孔隙结构影响因素及其定量评价——以准噶尔盆地金龙2地区二叠系上乌尔禾组二段为例     

单祥  郭华军  郭旭光  邹志文  李亚哲  王力宝 《吉林大学学报(地球科学版)》2019,49(3):637-649

利用薄片、扫描电镜、物性及压汞等资料，对金龙2地区三叠系上乌尔禾组二段（P₃w₂）低渗（含砾）砂岩储层孔隙结构及其影响因素进行了研究。结果表明：①乌二段属于低孔低渗储层，根据压汞曲线参数特征，将其孔隙结构划分为三类。②成岩作用控制了储层孔隙结构，定量计算结果表明，乌二段视压实率平均为53.54%、视胶结率平均为47.53%、视溶蚀率平均为13.84%、视微孔隙率平均为60.67%，表现为中等压实、中-强胶结、弱溶蚀、微孔发育等特征；压实作用、胶结作用、微孔隙发育主要控制储层孔隙结构的形成。③引入成岩综合指数来定量表征各种成岩作用的综合强度，其与储层孔隙结构参数（排驱压力、分选系数）以及储层品质因子（RQI）具有较好的统计相关关系，Ⅰ类储层成岩综合指数大于8%，Ⅱ类储层成岩综合指数为2%~8%，Ⅲ类储层成岩综合指数小于2%。因此，可以利用成岩综合指数定量评价储层孔隙结构。  相似文献   

缝洞型碳酸盐岩气藏多类型储集层孔隙结构特征及储渗能力——以四川盆地高石梯-磨溪地区灯四段为例     

王璐  杨胜来  彭先  刘义成  徐伟  邓惠 《吉林大学学报(地球科学版)》2019,49(4):947-958

为全面表征缝洞型碳酸盐岩气藏多类型储集层的孔隙结构特征及储渗能力，借助多种测试技术对四川盆地高石梯-磨溪地区灯四段储集层样品进行分析与研究。首先利用铸体薄片和扫描电镜技术定性刻画了储集层的岩性、物性、储集空间和喉道特征，然后根据高压压汞得到的毛管压力曲线对储集层进行分类，最后基于多尺度CT扫描定量表征了3类样品的二维、三维孔隙结构特征。结果表明：研究区储集空间既有受组构控制的粒间溶孔、粒内溶孔和晶间溶孔等，又有不受组构控制的溶洞、溶缝和构造缝；喉道以缩颈、片状和管束状为主；根据毛管压力曲线特征，储集层可划分为缝洞型、孔洞型和孔隙型；缝洞型大孔隙与溶洞发育，分布均匀且连通性好，喉道粗大且数量较多，微裂缝与溶洞串接呈串珠状分布，沟通了孤立的储集空间，具有最好的储渗能力；孔洞型多尺度孔隙与溶洞发育，储集能力强，喉道粗大但数量较少，连通性较差，各储集空间无法有效沟通，渗流能力受限；孔隙型细小孔隙发育且分布不均，大部分区域被岩石骨架占据，喉道数量少且连通性极差，储渗能力弱。  相似文献   

利用SAXS表征不同变质程度煤纳米孔隙特征          下载免费PDF全文

刘阳  姚素平  汤中一 《高校地质学报》2019,25(1):108

文章通过小角X 射线散射（SAXS） 的方法研究了自然演化系列不同煤级煤的纳米孔隙结构和分布特征。结果表明， 随着煤级的增高，孔隙表面分形呈多阶段变化： Ro＜0.89%，壳质组开始逐渐液化，发育大量孔隙，分形维数不断增大； Ro 为0.9%~1.5%，因挥发分生油充填孔隙和原油沥青的芳构化等作用，而使微孔表面平整光滑，分形维数减小；Ro 为1.5% ~3.5%，镜质组裂解生气发育了大量纳米孔隙，分形维数再次增大；随后逐渐石墨化，表面分形再次降低。煤中纳米级孔 隙主要集中在50~100 nm 范围内。其中细介孔（2~10 nm） 体积百分比占0.21%~3.12%，中介孔（10~25 nm） 体积百分比占 5.06%~11.28%，粗介孔（25~50 nm） 体积百分比占21.06%~26.36%，大孔（50~100 nm） 所占体积百分比最大，高达 64.63%~68.36%。随着煤级升高，煤样的最可几孔径不断减小，最可几孔径由80 nm 减小到10 nm，减小的速度由缓到快； 中介孔和细介孔体积百分比不断增大，与成熟度分别呈对数和线性关系；粗介孔和大孔百分比不断减少，与成熟度呈对数 关系。最可几孔径变化也十分明显，在低煤化烟煤阶段时，随煤化程度增高最可几孔径略有下降（峰值处的孔径范围在 75~71 nm 内），中高煤化烟煤阶段时，随煤化程度的增高最可几孔径呈较明显的下降趋势（峰值处的孔径范围在78~53 nm 内），到无烟煤阶段时，其孔径则快速下降（峰值处的孔径范围在72~9 nm）。  相似文献   

Constitutive modelling of fine-grained gassy soil: A composite approach     

Zhiwei Gao  Yi Hong  Lizhong Wang 《国际地质力学数值与分析法杂志》2020,44(9):1350-1368

Fine-grained marine sediments containing large undissolved gas bubbles are widely distributed around the world. Presence of the bubbles could degrade the undrained shear strength (s_u ) of the soil, when the gas pressure u_g is relatively high as compared with the effective stress in the saturated soil matrix. Meanwhile, the addition of bubbles may also increase s_u when the difference between u_g and pore water pressure u_w becomes smaller than the water entry value, causing partial water drainage from the saturated matrix into the bubbles (bubble flooding) during globally undrained shearing. A new constitutive model for describing the two competing effects on the stress-strain relationship of fine-grained gassy soil is proposed within the framework of critical state soil mechanics. The gassy soil is considered as a three-phase composite material with compressible cavities, which allows water entry from the saturated matrix. Bubble flooding is modelled by introducing an additional positive volumetric strain increment of the saturated clay matrix, which is dependent on the difference between pore gas and pore water pressure based on experimental observations. A modified hardening law based on that of the modified Cam clay model is employed, which in conjunction with the expression for bubble flooding, can describe both the detrimental and beneficial effects of gas bubbles on soil strength and plastic hardening in shear. Only two extra parameters in addition to those in the modified Cam clay model are used. It is shown that the key features of the stress-strain relationship of three fine-grained gassy soils can be reproduced satisfactorily.  相似文献   

Calibration method affects the measured δ2H and δ18O in soil water by direct H2Oliquid–H2Ovapour equilibration with laser spectroscopy     

Hongxiu Wang  Bingcheng Si  Dyan Pratt  Han Li  Xiaojun Ma 《水文研究》2020,34(2):506-516

The direct H₂O_liquid–H₂O_vapour equilibration method utilizing laser spectroscopy (DVE-LS) is a way to measure soil pore water stable isotopes. Various equilibration times and calibration methods have been used in DVE-LS. Yet little is known about their effects on the accuracy of the obtained isotope values. The objective of this study was to evaluate how equilibration time and calibration methods affect the accuracy of DVE-LS. We did both spiking and field soil experiments. For the spiking experiment, we applied DVE-LS to four soils of different textures, each of which was subjected to five water contents and six equilibration times. For the field soil experiment, we applied three calibration methods for DVE-LS to two field soil profiles, and the results were compared with cryogenic vacuum distillation (CVD)-LS. Results showed that DVE-LS demonstrated higher δ²H and δ¹⁸O as equilibration time increased, but 12 to 24 hr could be used as optimal equilibration time. For field soil samples, DVE-LS with liquid waters as standards led to significantly higher δ²H and δ¹⁸O than CVD-LS, with root mean square error (RMSE) of 8.06‰ for δ²H and 0.98‰ for δ¹⁸O. Calibration with soil texture reduced RMSE to 3.53‰ and 0.72‰ for δ²H and δ¹⁸O, respectively. Further, calibration with both soil texture and water content decreased RMSE to 3.10‰ for δ²H and 0.73‰ for δ¹⁸O. Our findings conclude that the calibration method applied may affect the measured soil water isotope values from DVE-LS.  相似文献   

北部湾地区海砂填料的动力特性分析     

王家全  陈胜前  唐毅  黄世斌  黄钦政 《海洋工程》2020,38(5):149-155

为研究北部湾地区海砂填料的动力特性，采用高级动态三轴测试系统开展循环荷载下的动三轴试验，研究不同围压及不同动应力幅值对海砂动力特性的影响规律。试验结果表明：轴向累计应变随围压增加而减小，围压150 kPa时振次10 000后应变仅为3%；随着动应力幅值的增大轴向累积应变随之增大，且达到破坏标准的时间越短。动弹性模量随着动应力幅值和围压的增加而增大，不同围压下动弹性模量随动应变的增加出现先骤减再略减后稳定的发展趋势，ε_d>0.3%后开始趋于稳定；不同动应力幅值下动弹性模量出现先增后减直至稳定的趋势，其中动应力幅值对动弹性模量有明显的影响，围压影响相对较小。孔压比随动应力幅值增加而减小，随围压增加而增加。  相似文献   

Effect of Shale Reservoir Characteristics on Shale Oil Movability in the Lower Third Member of the Shahejie Formation,Zhanhua Sag     

NING Chuanxiang  MA Zhongliang  JIANG Zhenxue  SU Siyuan  LI Tingwei  ZHENG Lunju  WANG Guozhen  LI Fengxun 《《地质学报》英文版》2020,94(2):352-363

To reveal the effect of shale reservoir characteristics on the movability of shale oil and its action mechanism in the lower third member of the Shahejie Formation(Es3l), samples with different features were selected and analyzed using N2 adsorption, high-pressure mercury injection capillary pressure(MICP), nuclear magnetic resonance(NMR), high-speed centrifugation, and displacement image techniques. The results show that shale pore structure characteristics control shale oil movability directly. Movable oil saturation has a positive relationship with pore volume for radius > 2 μm, as larger pores often have higher movable oil saturation, indicating that movable oil is present in relatively larger pores. The main reasons for this are as follows. The relatively smaller pores often have oil-wetting properties because of organic matter, which has an unfavorable effect on the flow of oil, while the relatively larger pores are often wetted by water, which is helpful to shale oil movability. The rich surface provided by the relatively smaller pores is beneficial to the adsorption of immovable oil. Meanwhile, the relatively larger pores create significant pore volume for movable oil. Moreover, the larger pores often have good pore connectivity. Pores and fractures are interconnected to form a complex fracture network, which provides a good permeability channel for shale oil flow. The smaller pores are mostly distributed separately;thus, they are not conducive to the flow of shale oil. The mineral composition and fabric macroscopically affect the movability of shale oil. Calcite plays an active role in shale oil movability by increasing the brittleness of shale and is more likely to form micro-cracks under the same stress background. Clay does not utilize shale oil flow because of its large specific surface area and its block effect. The bedding structure increases the large-scale storage space and improves the connectivity of pores at different scales, which is conducive to the movability of shale oil.  相似文献   

砾钢渣抗液化特性试验研究   总被引：1，自引：0，他引：1  

王丽艳  巩文雪  曹晓婷  姜朋明  王炳辉 《岩土力学》2019,40(10):3741-3750

陈化的钢渣作为土工回填材料是废弃钢渣循环利用的主要途径之一。按土的工程分类方法，将废弃钢渣划分为砾钢渣、粗钢渣和细钢渣。针对砾钢渣，考虑固结应力比、振动频率、围压和含砾量等影响因素开展动三轴试验研究。分析了砾钢渣的应力、应变和动孔隙水压力的特性，分析了砾钢渣试样的动强度与振动次数、动应变与振动次数、孔隙水压力与振动次数和动应力与动应变关系。采用Seed和Finn提出的饱和砂土动孔压计算模型分析砾钢渣的动孔压曲线类型，并与传统砂砾土的抗液化强度进行比较。得出砾钢渣的抗液化特性较好，工程中可以用砾钢渣替代传统的砂土、砂砾土、砂砾料和砂卵石作为回填料，解决砂砾资源日渐短缺的问题。  相似文献   

Effect of microstructure on stress–strain and pore-pressure response of sabarmati sand under the influence of mica     

P. Seethalakshmi 《Geomechanics and Geoengineering》2020,15(2):123-139

ABSTRACT

Micaceous soil is believed to be detrimental for civil engineering constructions due to the effect of high compressibility, low compacted density and low shear strength. Individual mica particle has numerous intact mica flakes foliated over each other making it flexible upon loading and rebound upon unloading due to its low hardness and resilient nature. Hence, micaceous soils with mica content more than 10% are considered undesirable for highway pavements, embankments and railway track constructions. When platy mica particles are sufficiently numerous to interact with spherical sand particles, bridging and ordering phenomena are augmented within the soil mass creating unique sand-mica particle orientation (MS microstructure) unlike sand-sand particle orientation (PS microstructure). The current experimental research was conducted to evaluate the variation in stress–strain, pore pressure and effective stress path response of Sabarmati sand under the influence of mica (sand with 30% mica and pure sand) with MS and PS microstructure respectively. Effect of particle crushing on stress–strain and pore pressure response was also studied on Sabarmati sand with MS and PS microstructure. Distinctive macroscopic response was observed in Sabarmati sand with MS microstructure under the influence of mica as well as mica particle crushing.  相似文献   

沟岸侧蚀对泥石流不稳定动力过程的影响          下载免费PDF全文

吕立群  王兆印  崔鹏  徐梦珍 《水科学进展》2018,29(2):213-220

泥石流作为非牛顿体,屈服应力大,运动过程通常不稳定。前人建立了许多模型来研究沟床揭底和堰塞体溃决对泥石流不稳定动力过程的影响,沟岸侧蚀对泥石流不稳定动力过程的影响研究较少。通过侧蚀为主的模型和完全底蚀的模型两种水槽实验的对比,针对泥石流的动力过程展开研究。实验发现两种工况条件下泥石流正应力和孔隙水压力随着龙头高度沿程波动性的增长而相应地波动性增大,但侧蚀作用使得这种波动特征更加明显。通过力学分析,证明侧蚀作用导致泥石流龙头的阻力更大,但是龙身颗粒和龙头颗粒的速度差更大,使得龙头附加坡降更大,因此,侧蚀作用使得泥石流龙头的平均速度更快。泥石流龙头浓度和容重的不断增大,使得阻力不断增大,阻力和动力的动态平衡关系是泥石流不稳定运动的原因之一。  相似文献