应用核磁共振成像(NMRI)技术研究复合剂驱油特征

本文应用核磁共振成像技术,在均值、非均值模型中研究了复合剂驱油动态实验过程。观察及分析了复合剂驱油特征和效果,对复合剂驱油段塞前缘进行了实时跟踪,得到了复合剂驱油段塞前缘油墙的形成及剩余油分布与运移的二维图像,给出了复合剂驱油后,剩余油的饱和度分布曲线。实验表明:在层状非均值地层中,若渗透率差异大,复合剂段塞主要进入高渗层,而波及不到低渗层,即复合剂波及效率低。若渗透率差异小,复合剂段塞大部分进入高渗层,有少部分进入低渗层,即复合剂波及效率较高。     

用历届吸水剖面和压降资料确定储层大孔道的方法

油田由于长期注水开发,储层的渗透能力明显增强,个别储层已形成了大孔道.识别、治理大孔道是油田进入高含水开发阶段主要工作之一.利用压降法分别计算注水井各个时期的储层渗透率,分析其变化趋势,结合历届关井初期地层压降速度和幅度可以判断注水井大孔道.当储层有效渗透率明显增大,关井初期前5 min内降落幅度是全井降落幅度50%以上,且压力导数双对数曲线中期出现凹型时,注水井存在大孔道.对于存在大孔道的注水井,同位素曲线和流量曲线皆显示的主要吸水层就是大孔道层位;同位素曲线显示不吸水,而流量曲线和井温曲线皆显示的主要吸水层也是大孔道层位,需要对这些层位采取调剖措施.该方法为油田下一步措施、实现储层精细注水提供了依据.     

聚合物调剖剂在吉林新立裂缝性油藏中的应用

目的：本文利用核磁共振技术系统地研究了聚合物调剖剂在吉林新立裂缝性油田中的应用。方法：利用多层平面物理模拟技术测试了不同聚合物对调整吉林新立油田中的作用和机理，实验集中测试了各阶段的油水饱和度及分布状况；结果：最后，研究不同的调剖剂注入量下剩余油的分布规律，提出调剖措施实施意见。结论：为裂缝性砂岩低渗透油田的合理、高效开发提供有力的支持。     

利用地球物理方法探测火山沉积型硼矿——在西藏阿里地区的应用

火山沉积型硼矿形成于新近纪特定的火山+湖相沉积环境条件下,含硼地层具有含硼湖相沉积岩与凝灰岩、安山岩等火山岩互层的多旋回二元沉积结构的特点.由于硼酸盐矿物的沉积发生多在沉积后期,通常与凝灰岩、粘土、灰岩等互层沉积,因此形成的硼矿层具有低密度、低电阻率的特征.针对硼矿层的这种特征,采用综合地球物理技术进行探测.在西藏雄巴地区,首先进行了1:5万高精度重力勘探,获得了研究区的布格重力异常,通过对重力资料的处理分析,获取了研究区的断裂构造发育和重力异常变化,推断了地下地层岩性空间变化特点并圈定出火山沉积型硼矿的发育有利区;在此基础上对有利区域进行了1:5000音频大地电磁测深,获得了研究区地下地层电性结构特征.通过对研究区电法数据的震电拟合及重力和大地电磁资料联合反演并与研究区地质资料相结合,进一步分析了该区地层构造、断裂体系、沉积单元与火山沉积型硼矿的形成关系,并对该区火山沉积型硼矿的分布进行了预测,最终钻探验证结果与预测结果基本一致.     

论三水地震的成因

１９９７年９月２３日和２６日,在广东省三水相继发生ＭＬ３．７和４．４地震,由于这两次地震震源浅,具有震级小,烈度高和地震面波发育的特征,因震中位于盐矿开采区,震源深度与盐矿开采注水－抽水深度接近,故震源机制解表明该震为一次沿Ｆ７断上滑错动的正倾滑型地震,显著,这与盐矿注水－抽水采盐有着成生联系。由于注水－抽水极盐使开采地段产生一定规模的采空区,注水沿Ｆ７断层的渗透所产生的孔隙压降低了有效正应力,加     

基于开发动态的水淹层测井综合评价方法——以南苏丹P区块为例

由于南苏丹P区块没有可用于确定油层水淹程度的密闭取心新井资料,且单层生产及试油数据非常少,开采与完井时间间隔较长,地层水性质相同导致底水水淹与油水同层难以识别,因此,水淹层解释难度较大.本文首先根据区块地质特征与开发特征及水淹层水源和水进方向,归纳总结出研究区油层的水淹类型为边水与注入水推进水淹型和底水推进水淹型,注水水淹和边底水水淹在电阻率测井响应特征上均表现为电阻率值的明显降低.其次,采用新老井相同层位测井信息对比方法,结合相邻老井生产动态测试结果,确定出新井典型水淹层,分析水淹层测井响应特征,优选出深侧向电阻率、浅侧向电阻率、深浅侧向电阻率幅度差、深侧向电阻率与冲洗带电阻率幅度差等4个水淹敏感参数,其中深侧向电阻率和深浅侧向电阻率幅度差为最有效的水淹识别参数.利用深侧向电阻率值与深浅侧向幅度差交会,建立了水淹层定性识别图版,利用该图版可有效地区分水淹层与水层和油层.基于储层岩性物性测井响应特征分析,采用岩心刻度测井方法,建立了水淹层泥质含量、孔隙度、渗透率、饱和度等参数定量解释模型,利用计算的驱油效率值可有效地划分弱水淹、中水淹、强水淹.综合水淹层定性识别图版法以及定量解释方法,结合邻井生产动态,建立了水淹层综合测井评价方法,经实际井验证证明该方法结合了静态测井解释与动态生产数据在水淹层评价中优势,提高了水淹级别测井综合评价准确性.采用开发初期井连井剖面对比方法,确定出油水同层顶界面海拔深度,再结合邻井开发动态,寻找出新井水源,判断出新井水淹类型.对于底水水淹类型,新井不存在油水同层,只能为水淹层;对于边水水淹类型,将解释油水同层或水淹层海拔深度高于最高油水同层顶界面海拔深度的储层判定为水淹层,而海拔深度低于最高油水同层顶界面海拔深度的储层判定为油水同层,经实际井验证证明该方法可有效地区分底水水淹层与油水同层.     

SCIENCE CHINA Earth Sciences SUBJECT INDEX TO VOLUME 57(2014)

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Distribution of throughfall and stemflow in multi‐strata agroforestry,perennial monoculture,fallow and primary forest in central Amazonia,Brazil

The partitioning of rain water into throughfall, stemflow and interception loss when passing through plant canopies depends on properties of the respective plant species, such as leaf area and branch angles. In heterogeneous vegetation, such as tropical forest or polycultural systems, the presence of different plant species may consequently result in a mosaic of situations with respect to quantity and quality of water inputs into the soil. As these processes influence not only the water availability for the plants, but also water infiltration and nutrient leaching, the understanding of plant effects on the repartitioning of rain water may help in the optimization of land use systems and management practices. We measured throughfall and stemflow in a perennial polyculture (multi‐strata agroforestry), monocultures of peach palm (Bactris gasipaes) for fruit and for palmito, a monoculture of cupuaçu (Theobroma grandiflorum), spontaneous fallow and primary forest during one year in central Amazonia, Brazil. The effect on rain water partitioning was measured separately for four useful tree species in the polyculture and for two tree species in the primary forest. Throughfall at two stem distances, and stemflow, differed significantly between tree species, resulting in pronounced spatial patterns of water input into the soil in the polyculture system. For two tree species, peach palm for fruit (Bactris gasipaes) and Brazil nut trees (Bertholletia excelsa), the water input into the soil near the stem was significantly higher than the open‐area rainfall. This could lead to increased nutrient leaching when fertilizer is applied close to the stem of these trees. In the primary forest, such spatial patterns could also be detected, with significantly higher water input near a palm (Oenocarpus bacaba) than near a dicotyledonous tree species (Eschweilera sp.). Interception losses were 6·4% in the polyculture, 13·9 and 12·3% in the peach palm monocultures for fruit and for palmito, respectively, 0·5% in the cupuaçu monoculture and 3·1% in the fallow. With more than 20% of the open‐area rainfall, the highest stemflow contributions to the water input into the soil were measured in the palm monocultures and in the fallow. Copyright © 1999 John Wiley & Sons, Ltd.     

A Monte Carlo study of rainfall forecasting with a stochastic model

A procedure for short-term rainfall forecasting in real-time is developed and a study of the role of sampling on forecast ability is conducted. Ground level rainfall fields are forecasted using a stochastic space-time rainfall model in state-space form. Updating of the rainfall field in real-time is accomplished using a distributed parameter Kalman filter to optimally combine measurement information and forecast model estimates. The influence of sampling density on forecast accuracy is evaluated using a series of a simulated rainfall events generated with the same stochastic rainfall model. Sampling was conducted at five different network spatial densities. The results quantify the influence of sampling network density on real-time rainfall field forecasting. Statistical analyses of the rainfall field residuals illustrate improvement in one hour lead time forecasts at higher measurement densities.     

Anthropogenic Eutrophication and Red Tide Outbreak in Lacustrine Systems of the Kashmir Himalaya

Red tide, a recurrent phenomenon has become conspicuous in several Kashmir lake ecosystems since 1991. The responsible organism (Euglena pedunculata), a rare flagellate rediscovered in the Kashmir Himalaya (Khan 1993) caused first and unprecedented red tide outbreak, constituting a maximum of 96% of resident numerical phytoplankton density in Dal Lake. At present, conflicting hypotheses exist on the generation of causal assemblage(s) imparting redness to waters: Jeeji Bai (1991) linked its origin to acid precipitation – a fallout of burning oil‐fields during the Gulf War – whilst Khan (1993) holds local factor(s) responsible. Field/experimental studies support the latter contention that the influx of untreated sewage, in unison with warm temperatures, high levels of PhAR, iron and interruption to hydrological flow‐pattern together with absence/or reduction in grazing activity created conducive environmental milieu for red tide outbreak. Dal Lake “red tide” drifted the bloom‐inoculum to other waters, including Lake Wular, where additional ecological niches were carved out, threatening the aesthetic value and biological diversity of Kashmir lakes. Ecological monitoring indicates frequent seasonal red tide occurrence in Dal Lake (including summer‐autumn event of 1998) which testifies its unabated eutrophication status. Further studies are needed on ecological adaptability and biogeographic distribution of this rare and unique red tide‐causing flagellate.