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1.
川东南地区龙马溪组页岩孔隙结构全孔径表征及其对含气性的控制 总被引:4,自引:0,他引:4
页岩气主要赋存于页岩孔隙中,研究页岩孔隙结构特征是深入认识页岩气富集机理的关键。通过CO2吸附、N2吸附、CH4等温吸附和高压压汞实验,对川东南地区龙马溪组页岩的孔隙结构进行了全孔径表征,并阐明了孔隙结构对页岩含气性的控制作用。页岩的微孔(<2.0 nm)、中孔(2.0~50.0 nm)和宏孔(>50.0 nm)都十分发育,且分布特征变化较大。在孔体积方面,中孔提供的孔体积最多,约40.8%,其次是微孔,约34.7%,宏孔的孔体积最少,只提供24.5%。在孔隙比表面积方面,微孔占有绝对优势,约提供76.87%,其次是中孔,约23.05%,宏孔只有0.07%。中孔和微孔提供了页岩中主要的孔体积,控制了游离气的含量。微孔的比表面积与CH4最大吸附量具有很好的正相关关系,且提供了页岩中主要的比表面积,控制了吸附气的含量。宏孔提供的孔体积和比表面积在页岩中不占优势,对吸附气和游离气含量的影响较弱,但可作为页岩气渗流的主要运移通道。因此,明确页岩的微孔、中孔和宏孔的分布特征,尤其是微孔对页岩中吸附气和游离气富集的贡献,对页岩气勘探与开发具有重要指导意义。 相似文献
2.
页岩的孔隙类型、结构对于页岩气资源评价与开采具有重要意义,为了进一步认识页岩孔隙结构特征及其演化规律,利用场发射扫描电镜、氮气吸附实验对黔西北骑龙村剖面五峰—龙马溪组黑色页岩微观孔隙类型、结构进行了研究,结果表明,研究区五峰—龙马溪组页岩气储层的储集空间类型多样,主要包含粒内孔、粒间孔、有机质孔和微裂缝。页岩孔隙以介孔为主,介孔是页岩气的主要储集空间;孔隙结构以墨水瓶状孔和平行板状孔为主。探讨了影响页岩孔隙发育的主要因素,有机碳含量、热演化程度和矿物成分含量均对页岩孔隙的发育有影响,而且并非单相性的,是相互制约的。研究剖面石英含量与微孔、中孔的发育程度呈良好的正相关关系,而与宏孔发育程度的相关性不明显;黏土矿物含量与微孔、中孔的发育程度的相关性不明显,而与宏孔的发育程度呈负相关关系;有机质孔隙正处在其发育高峰期,对于页岩孔隙具有重要贡献,且随成熟度增加而增加。 相似文献
3.
In organic-rich gas shales, clay minerals and organic matter (OM) have significant influences on the origin, preservation, and production of shale gas. Because of the substantial role of nanoscale pores in the generation, storage, and seepage of shale gas, we examined the effects of clay minerals and OM on nanoscale pore distribution characteristics in Lower Paleozoic shale gas reservoirs. Using the Niutitang and Longmaxi shales as examples, we determined the effects of clay minerals and OM on pores through sedimentation experiments. Field emission–scanning electron microscopy combined with low-pressure N2 adsorption of the samples before and after sedimentation showed significant differences in pore location and pore size distribution between the Niutitang and Longmaxi shales. Nanoscale pores mostly existed in OM in the Longmaxi shale and in clay minerals or OM–clay composites in the Niutitang shale. The distribution differences were attributed largely to variability in thermal evolution and tectonic development and might account for the difference in gas-bearing capacity between the Niutitang and Longmaxi reservoirs. In the nanoscale range, mesopores accounted for 61–76% of total nanoscale pore volume. Considerably developed nanoscale pores in OM were distributed in a broad size range in the Longmaxi shale, which led to good pore connectivity and gas production. Numerous narrow pores (i.e., pores?<?20 nm) in OM–clay composites were found in the Niutitang shale, and might account for this shale’s poor pore connectivity and low gas production efficiency. Enhancing the connectivity of the mesopores (especially pores?<?20 nm and those developed in OM–clay composites) might be the key to improving development of the Niutitang shale. The findings provide new insight into the formation and evolutionary mechanism of nanoscale pores developed in OM and clay minerals. 相似文献
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5.
Organic matter (OM) and minerals are major particle components of lacustrine shales. The influence of OM and minerals on pore space and structure in organic-rich oil-prone shales containing a large range of total organic carbon (TOC) contents is poorly understood. In this study, we investigated the variation in pore space and structure of low mature lacustrine shales in the Songliao Basin (NE China), based on a study of the mineralogy, petrography, geochemistry, and geophysical properties of shales. Different pore types make markedly different contributions to the mineral surface area (MSA) and pore volume (PV) of the shales. There exists a negative correlation between MSA/PV and TOC in mesopores (r2 = 0.75/0.65) and macropores (r2 = 0.74/0.68), and a positive correlation in micropores (r2 = 0.59/0.64), which are associated with the variation of mineral and TOC contents. A positive relationship between the throat/pore ratio and TOC (r2 = 0.82) shows an increase in throat radius and decrease in pore radius with increasing TOC content. This relationship is supported by the reduction in mean pore diameter (MPD) for large pores and increase in MPD for small pores. These variations are related to the decreased pores by quartz plus feldspar (Q + F) content, increased throats by clay minerals, and enhanced pore-fill by OM. We propose that the variation of OM and minerals is a key control on the pore space and structure of low mature organic-rich oil-prone shales. 相似文献
6.
根据页岩样品不同孔径范围的累计孔体积与累计比表面积,结合焦页1井五峰-龙马溪组与慈页1井牛蹄塘组页岩样品的地球化学参数与岩样各矿物组分百分含量,分析页岩组分对两套地层孔隙发育差异的影响.结果显示,TOC与微孔呈正相关关系,表明有机质微孔对页岩孔隙发育提供了一定的贡献,五峰-龙马溪组页岩较牛蹄塘组更为发育有机质微孔.石英、黄铁矿含量与微孔的正相关关系表明,矿物支撑的原生孔与发育的边缘孔为页岩孔隙发育提供了有利贡献.石英与中孔、大孔的不同相关性表明石英根据其生物成因贡献的石英含量对中孔、大孔的保护程度不一.黄铁矿含量与大孔的正相关关系表明黄铁矿可以根据其含量的多寡为大孔提供一定程度的保护,长石与孔隙的负相关关系表明其对孔隙的支撑作用受到了压实作用、复杂构造的影响而不明显.碳酸盐矿物与孔隙的相关性不明显表示基于其较弱刚性、不稳的化学性质与较低含量未对孔隙发育产生明显影响.五峰-龙马溪组页岩较高的刚性矿物含量对储层矿物粒间孔、边缘孔等微孔与中孔、大孔的发育起到了较牛蹄塘组更为有利的影响.黏土矿物与微孔、中孔的负相关关系表明在较强压实作用下黏土矿物间孔隙易收缩,对储层孔隙发育产生不利影响,表明牛蹄塘组经历的更深历史埋藏对牛蹄塘组黏土矿物间孔隙发育起到了更加不利的影响. 相似文献
7.
页岩的微观孔隙结构对页岩气的赋存至关重要,气体吸附法可以较好对页岩的微观孔隙结构进行表征。通过测量丁页1井不同深度样品的矿物含量、RO值和TOC含量,结果表明丁页1井龙马溪组页岩样品的矿物含量比较稳定,有机质成熟度变化不大,均为过成熟。通过低温氮吸附法计算样品的比表面积和微、介孔容积和孔径分布,结果表明:(1)样品的平均孔径为2.8 ~ 4.9 nm,10 nm以下的孔隙提供了大部分的微、介孔容积。微、介孔容积为0.00136 ~ 0.0108 cm3/g,平均0.004 cm3/g,比表面积为2.54 ~ 13.69 m2/g,平均6.68 m2/g;(2)微、介孔容积、比表面积和TOC三者之间有很强的正相关性。通过计算TOC含量为0时的微、介孔容积和比表面积推算无机孔和有机孔之间的比例和其对比表面积的影响,发现有机孔提供了大部分的微、介孔容积,有机孔还是比表面积的主要贡献因素;(3)样品的吸附曲线符合IPUAC分类中的第IV型吸附曲线,样品的脱附曲线反映样品孔隙形态随TOC含量的增加,由楔形孔(不定型孔)变为连通的墨水瓶型孔(狭缝型孔)或墨水瓶型孔。 相似文献
8.
LIANG Feng ZHANG Qin CUI Huiying MENG Qingqiang MA Chao LIANG Pingping GUO Wei 《《地质学报》英文版》2019,93(4):1047-1059
The Upper Ordovician Wufeng-Lower Silurian Longmaxi and the Lower Cambrian Qiongzhusi shales are the major targets for shale gas exploration and development in China. Although the two organic-rich shales share similar distribution ranges and thicknesses, they exhibit substantially different exploration and development results. This work analyzed the nanopore structures of the shale reservoirs in this region. Pore development of 51 shale samples collected from various formations and locations was compared using the petromineralogical, geochemical, structural geological and reservoir geological methods. The results indicate that the reservoir space in these shales is dominated by organic pores and the total pore volume of micropores, mesopores, macropores in different tectonic areas and formations show different trends with the increase of TOC. It is suggested that organic pores of shale can be well preserved in areas with simple structure and suitable preservation conditions, and the shale with smaller maximum ancient burial depth and later hydrocarbon-generation-end-time is also more conducive to pore preservation. Organic pore evolution models are established, and they are as follows: ① Organic matter pore development stage, ② Early stage of organic matter pore destruction, and ③ late stage of organic matter pore destruction. The areas conducive to pore development are favorable for shale gas development. Research results can effectively guide the optimization and evaluation of favorable areas of shale gas. 相似文献
9.
Y. C. Liu D. X. Chen Y. Wang J. Fu Y. Huyan 《Australian Journal of Earth Sciences》2017,64(6):807-823
The well-developed continental shale sequences in the Western Sichuan Depression are characterised by extremely low porosity and permeability, complex lithologies and strong lateral facies changes. The overall lack of proper characterisation of the shale properties has restricted gas exploration and development in the region. In this study, shales from the fifth member of the Xujiahe Formation of the Upper Triassic (T3x5) are comprehensively characterised in terms of their organic geochemistry, mineral composition, microscopic pore structure and gas content. In addition, the influence of various geological factors on the adsorbed gas content is investigated. We proposed a new model for predicting the adsorption gas content of continental shale. The T3x5 shale sequence is found to be rich in organic matter but with variable mineral compositions, pore types and reservoir physical properties. The porosity and permeability of shales are better than those of siltstones and fine sandstones interbedded with the shale under an overall densification background. Mesopores (2–50 nm) are common in the shale sequence, followed by micropores and then macropores. The gas-adsorption capacity of organic-rich shales increases with increasing TOC and clay-mineral contents, maturity and pressure, but decreases with increasing quartz content, carbonate minerals and temperature. The gas-adsorption capacity can thus be expressed as a function of organic matter, clay-mineral content, temperature and pressure. The calculated results are in good agreement with the experiment results and indicate that adsorption gas in the studied shales accounts for 78.9% of the total gas content. 相似文献
10.
渝东南地区龙马溪组高演化页岩微纳米孔隙非均质性及主控因素 总被引:1,自引:0,他引:1
对页岩气赋存的主要场所页岩孔隙的研究是解决页岩气赋存和保存机理的关键,但目前缺少有效的手段去定量刻画高演化页岩微纳米孔隙的非均质性特征。通过低压N2吸附/解吸、高压压汞、场发射扫描电镜(FE-SEM)等实验,运用分形维数对渝东南地区龙马溪组高演化页岩微纳米孔隙非均质性进行了定量分析。结果表明:高演化页岩的微纳米级孔隙非均质性极强。中孔(2.0~50.0 nm)中2.0~4.5 nm 的孔隙分形维数平均2.853 4,4.5~50.0 nm 的孔隙分形维数平均2.7367,这种极强非均质性主要受有机质控制。总有机碳(TOC)含量大于1.7 %时,有机质孔在中孔中占主导地位,粘土矿物含量的增加会在一定程度上增加中孔的非均质性。宏孔(>50.0 nm)分形维数平均2.8441,非均质性较强,主要受石英和碳酸盐等脆性矿物控制,随着碳酸盐矿物含量的增大,非均质程度增加,有机质对页岩宏孔的非均质性影响不明显。 相似文献
11.
Xiaoyue Gao Luofu Liu Fujie Jiang Ying Wang Fei Xiao Zeying Ren Zhengyang Xiao 《Geological Journal》2016,51(6):936-948
The Jurassic shale is an important source rock for the found gas reservoirs in the Tarim Basin, northwestern China, but has never been researched for shale gas potential. The geological effects on methane adsorption capacity for the gas shale have been investigated in this paper through the geochemical, mineralogical and adsorption analyses on samples from wells and sections. The methane adsorption capacity ranges from 0.58 to 16.57 cm3/g, and the total organic carbon (TOC) content is between 0.5 and 13.5 wt%. The organic maturity measured by Tmax is between 410 °C (immature) and 499 °C (overmature). The methane adsorption capacity of the Jurassic continental shale in the Tarim Basin is affected by many geological factors, including the TOC content, organic matter maturity, mineral composition, surface area and pore size distribution. The TOC content is the most significant factor with a positive effect on the adsorption capacity of the Jurassic shale, and the influence varies piecewise according to the TOC content. The TOC content contributes much more to the methane adsorption capacity of organic‐rich shale samples (TOC content > 0.7 wt%) than to the organic‐lean samples (TOC content < 0.7 wt%). The mineral composition is a secondary factor, and the abundance of clay content has a positive effect on the methane adsorption capacity despite its relatively weaker adsorption ability compared to TOC. The pore size distribution has different effects on surface area and pore volume. Mesopores and micropores provide the major surface area and are mainly derived from TOC and illite, which has a positive influence on the adsorption capacity. Mesopores and macropores offer the major pore volume and are mainly formed by illite, which is the major contributor for pore volume rather than surface area. In addition, the TOC and illite contents of the Jurassic shale in the Tarim Basin are closely related to the origin, maturity and diagenesis evolution of the shale: (1) both TOC and illite content variations are related to the different provenances and depositional environments of shale; (2) the decrease of TOC content with increasing maturity is also partly attributed to hydrocarbon generation; and (3) the increase of illite content with increasing maturity is due to illitization in the diagenesis of shale. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
12.
为了评估下扬子皖南地区古生界页岩气储层性质,应用扫描电子显微镜、高压压汞法、N2和CO2气体吸附法,对皖南地区古生界页岩孔隙特征和孔隙结构进行研究,并探讨页岩孔隙发育的主要影响因素。结果表明,皖南地区古生界页岩孔隙度和渗透率低,页岩样品中常见粒间孔、凝絮孔、溶蚀孔、基质晶间孔和有机质孔,并且发育微米-纳米级孔隙。古生界页岩孔隙中50%以上为微孔和介孔;孔隙结构主要为圆柱孔、狭缝型孔和混合型孔,平均孔径范围为4.17~12.06 nm。页岩孔容和比表面积随着有机碳(TOC)含量的增大而增大;页岩孔隙度随着有机质成熟度(Ro)的增大而减小;页岩孔容随着黏土矿物含量的增加而增大,随着脆性矿物含量的增加而减小。 相似文献
13.
为评价新疆北部吉木乃坳陷页岩气勘探潜力,通过对吉木乃坳陷下二叠统卡拉岗组暗色页岩段有机地球化学以及储层特征分析,初步探讨其页岩气地质特征。卡拉岗组下段暗色页岩段烃源岩以碳质泥页岩为主,TOC最小值为0.3%,最大值为4.32%,平均值为1.01%。有机质丰度中等,有机质类型为Ⅲ型,Ro值介于1.43%~2.87%之间,平均值为2.12%。热演化程度为成熟-过成熟度阶段,具较好天然气生成能力。暗色页岩矿物成分以石英、长石等脆性矿物为主,粘土质矿物次之,具较好可裂性及吸附性。页岩孔隙以宏孔、细小孔以及小孔为主,储集空间主要为粒内及粒间溶孔、矿物间的微孔隙与微缝隙、矿物微裂缝。孔隙度为0.97%~1.52%,平均为1.36%。渗透率为0.0097~0.0197m D,平均为0.0139m D,具较好天然气储集能力。 相似文献
14.
A key target of shale gas exploration and production in China is the organic-rich black shale of the Wufeng Formation-Longmaxi Formation in the Sichuan Basin and its periphery. The set of black shale contains abundant graptolites, which are mainly preserved as flattened rhabdosomes with carbonized periderms, is an important organic component of the shale. However, few previous studies had focused on the organic matter (OM) which is derived from graptolite and its pore structure. In particular, the contributions of graptolites to gas generation, storage, and flow have not yet been examined. In this study, focused ion beam-scanning electron microscope (FIB-SEM) was used to investigate the characteristics of the graptolite-derived OM and the micro-nanopores of graptolite periderms. The results suggested that the proportion of OM in the graptolite was between 19.7% and 30.2%, and between 8.9% and 14.4% in the surrounding rock. The total organic carbon (TOC) content of the graptolite was found to be higher than that of the surrounding rock, which indicated that the graptolite played a significant role in the dispersed organic matter. Four types of pores were developed in the graptolite periderm, including organic gas pores, pyrite moulage pores, authigenic quartz moldic pores, and micro-fractures. These well-developed micro-nano pores and fractures had formed an interconnected system within the graptolites which provided storage spaces for shale gas. The stacked layers and large accumulation of graptolites resulted in lamellation fractures openning easily, and provided effective pathways for the gas flow. A few nanoscale gas pores were observed in the graptolite-derived OM, with surface porosity lie in 1.5%–2.4%, and pore diameters of 5–20 nm. The sapropel detritus was determined to be rich in nanometer-sized pores with surface porosity of 3.1%–6.2%, and pore diameters of 20–80 nm. Due to the small amount of hydrocarbon generation of the graptolite, supporting the overlying pressure was difficult, which caused the pores to become compacted or collapsed. 相似文献
15.
有机质孔是高成熟页岩储层中吸附气和游离气赋存的主要储集空间类型。中国南方海相页岩地层经历了多期构造改造,滑脱构造广泛发育。为了认识剪切作用对页岩有机质孔微观结构和吸附能力的影响,以张家界三岔地区下寒武统牛蹄塘组页岩为例,通过大量扫描电镜图像观测统计,对比分析了滑脱带页岩、邻近滑脱带页岩和远离滑脱带页岩有机质孔的发育特征,同时对这三类样品进行了甲烷等温吸附测试。研究结果表明,有机质内孔发育在有机质内部,孔径一般<20 nm;位于有机质与矿物接触边缘的复合孔孔径整体大于有机质内孔,主要发育在滑脱带页岩中包裹有矿物碎片的有机质中。受剪切作用影响,这两类有机质孔均沿一定优势方向发生形变,形态更趋于狭长且定向性增强;同时页岩甲烷吸附能力变差,从滑脱带向远离滑脱带方向这种影响逐渐减弱。剪切作用对页岩储集性能和含气性具有重要控制作用,对认识复杂构造区页岩气保存条件和富集规律具有重要意义。 相似文献
16.
渝东南渝页1井下志留统龙马溪组页岩孔隙特征及其主控因素 总被引:2,自引:0,他引:2
富有机质黑色页岩的孔隙结构控制了页岩气的赋存状态和储气量。中国南方地区下志留统是页岩气发育的最重要层位之一。为研究页岩的孔隙特征及其主控因素,对以下志留统龙马溪组页岩气为勘探目标的渝页1井的岩心进行系统的采样,并进行了比表面和孔径、有机质成熟度(Ro)、显微组分、总有机碳(TOC)含量、全岩X射线衍射和粘土矿物含量等一系列分析测试。结果显示,黑色页岩的孔径主要分布于2~5 nm,即以中孔隙为主;中孔体积占总体积的70%左右,微孔体积和宏孔体积分别占10%和20%左右。页岩孔隙结构(微孔体积、中孔体积和宏孔体积)和组成(碎屑矿物成分、粘土矿物成分、TOC和Ro)的相关关系分析表明:粘土矿物对微孔体积和中孔体积都具有控制作用,并且对中孔体积的控制作用更加显著;陆源碎屑含量的增加有利于宏孔体积的增加;有机质成熟度较高时和高成熟度有机碳含量都与宏孔隙体积呈正相关,这可能与高成熟有机质中nm级显微裂缝的发育导致宏孔体积增加有关。 相似文献
17.
煤系页岩气是煤系非常规天然气的重要类型。储层研究可为煤系页岩气开发提供理论基础。基于国内外文献调研分析,从煤系页岩分布与地化特征、储层特征与含气性、煤系页岩气赋存状态、富集影响因素、有利储层优选方面,阐述了煤系页岩气储层研究进展。研究表明:煤系页岩单层厚度薄,累计厚度大,有机质类型以Ⅲ型为主,储层矿物中黏土矿物含量相对较高,含气量具备商业开发所需条件。煤系页岩气赋存状态本质上取决于储层孔隙结构,页岩气在微孔中主要以吸附态的形式存在,而在中孔和宏孔中游离态是其主要存在形式。煤系页岩气富集主要受到有机质特征、储层矿物组成、储层结构特征、岩性组合的影响。有机质含量高有利于页岩气赋存;黏土矿物具有较强的吸附能力,多发育微孔和中孔,有利于页岩气富集;储层孔隙度的增加有利于页岩气富集;煤系页岩与煤层互层时,存在压力封闭和煤层气充注,利于富集。煤系页岩气有利储层优选为:TOC含量>2%,R o>0.7%,孔隙度>2%,脆性矿物含量>30%,黏土矿物含量<50%,含气量>1 m 3/t,煤系页岩有效厚度定为>30m、埋深>1000m,同时应考虑气藏封闭性及构造稳定性。 相似文献
18.
四川盆地南部(简称“川南”) 广泛发育多套下古生界海相泥页岩层系,其中龙马溪组为该区一套优良的烃源岩
层,具备优越的页岩气形成条件。根据长宁和威远页岩气探区的钻井岩心、露头样品分析资料,对川南地区下志留统龙马
溪组页岩有机质特征及其对页岩气富集规律的影响进行研究后表明,川南龙马溪组页岩的有机质类型为Ⅰ~Ⅱ1型,有机
碳含量较高(平均为2.52%),热演化程度为2.0%~3.8%,达到了高-过成熟阶段;研究区的有机质特征对页岩气的富集具
有重要的影响,干酪根的类型决定着甲烷吸附能力强弱,有机质丰度和有机演化程度决定了页岩的生气量和含气量,同时
高TOC和Ro也能促进有机质微孔隙的发育,为页岩气的富集提供更多有利空间。因此,研究认为川南地区龙马溪组有机质
特征较好,有利于页岩气的富集成藏。 相似文献
19.
鄂尔多斯盆地东南部上古生界海陆过渡相页岩储集性与含气性 总被引:3,自引:0,他引:3
鄂尔多斯盆地上古生界海陆过渡相页岩是重要的页岩气富集层系,但是含气性及其控制因素研究薄弱,制约了对该地区页岩气的勘探和研究。论文通过对鄂尔多斯东南部本溪和山西组大量页岩样品开展有机地球化学、矿物组成、页岩孔隙及分布的研究,评价了海陆过渡相页岩的储集性;通过含气量现场解吸和等温吸附实验,分析了页岩含气特征和影响因素。结论认为研究区海陆过渡相页岩有机质丰度高(TOC含量0.5%~11%),主要发育III型干酪根,有机质成熟度较高(1.0%~3.0% Ro);矿物组成以富黏土页岩为特征,黏土矿物含量可高达60%以上。总孔隙度分布在2%~8%,部分样品微裂缝发育。孔隙类型以平行板状的狭缝型孔隙介孔为主,在岩石孔隙比表面积和孔体积的贡献占90%以上;TOC含量与孔隙比表面积及孔隙总体积具有密切的相关性,有机质孔隙对岩石总孔隙构成具有重要贡献。现场解吸含气量为0.591~4.05 m3/t,兰氏体积从0.05 m3/t到14 m3/t都有分布,页岩实测含气量与气体吸附能力差异大。TOC含量是控制海陆过渡相页岩含气量和含气能力的重要因素,富黏土矿物的吸附作用可使样品含气能力显著增加。 相似文献
20.
中国南方主要富有机质海相页岩寒武系牛蹄塘组和志留系龙马溪组是当前页岩气勘探的重要目标地层,但演化程度普遍偏高,孔隙结构复杂。为加深对这种复杂性的认识,通过场发射扫描电镜、高压压汞实验与低温低压吸附实验(CO_2与N_2),对页岩全孔径孔隙结构特征进行对比研究。研究发现,牛蹄塘组孔体积与龙马溪组页岩的孔体积分别介于0.0202~0.0402 m L/g与0.0255~0.0310 m L/g之间,介孔在两套页岩孔体积中所占比例最大。两套页岩比表面积分别介于13.74~41.26 m~2/g与21.42~27.82 m~2/g之间,微孔与介孔几乎提供了两套页岩全部的比表面。孔隙结构的差异主要表现为牛蹄塘组页岩内溶蚀孔和粒间孔较为发育,有机质孔隙发育不均匀;而龙马溪组页岩内粒内孔、粒间孔和有机质孔隙均较为发育;牛蹄塘组在微孔范围内的孔体积与比表面积占有优势,而介孔与宏孔范围内的孔体积与比表面积均小于龙马溪组。根据实验数据结果与文献的调研,两套页岩孔隙结构差异的主要原因主要是成熟度与埋深的不同影响而形成的。 相似文献