砂质辫状河储层构型表征及其对剩余油的控制--以渤海海域P油田为例

砂质辫状河内部不同级次的构型模式,特别是心滩坝及其内部夹层的构型特征尤为重要,直接控制了油田开发中后期剩余油富集与分布。采取现代地质调查与地下地质解剖相结合的思路,以渤海海域P油田为例,分别从辫流带、心滩坝及心滩坝内部夹层三个级次,探讨了砂质辫状河构型特征及其对剩余油分布规律的影响。结果表明砂质辫状河道具有三种充填样式,且以砂质充填为主,心滩坝与辫状河道呈"宽坝窄河道"的分布样式;坝内落淤层具有穹窿式和水平式两种分布样式。此外,从5级至3级构型单元逐步细分,通过三种识别标志划分单一辫流带,平均宽厚比约178;心滩坝辫状河道宽度与心滩坝宽度比约为1:3.8,心滩坝宽度与长度比约为1:2.2;心滩坝内部单期落淤层近水平分布,多期之间互相平行,一般2~4个。不同级次储层构型要素对剩余油分布的控制存在差异性。对于辫流带级次,层间隔层直接控制剩余油分布;心滩坝级次泥质半充填河道底部砂体连通,侧翼上部水淹程度较低,剩余油富集;受落淤层和物性界面的影响,心滩坝内部剩余油主要呈"分段式"富集在落淤层下方垂积体的顶部和水驱较弱的边部。该成果在油田老区综合调整方案和新区开发方案设计上得到了应用,也在调整井部署,尤其是水平井挖潜剩余油等方面,提供了地质依据。     

Evolution and sedimentology of a channel fill in the sandy braided South Saskatchewan River and its comparison to the deposits of an adjacent compound bar

The depositional stratigraphy of within‐channel deposits in sandy braided rivers is dominated by a variety of barforms (both singular ‘unit’ bars and complex ‘compound’ bars), as well as the infill of individual channels (herein termed ‘channel fills’). The deposits of bars and channel fills define the key components of facies models for braided rivers and their within‐channel heterogeneity, knowledge of which is important for reservoir characterization. However, few studies have sought to address the question of whether the deposits of bars and channel fills can be readily differentiated from each other. This paper presents the first quantitative study to achieve this aim, using aerial images of an evolving modern sandy braided river and geophysical imaging of its subsurface deposits. Aerial photographs taken between 2000 and 2004 document the abandonment and fill of a 1·3 km long, 80 m wide anabranch channel in the sandy braided South Saskatchewan River, Canada. Upstream river regulation traps the majority of very fine sediment and there is little clay (< 1%) in the bed sediments. Channel abandonment was initiated by a series of unit bars that stalled and progressively blocked the anabranch entrance, together with dune deposition and stacking at the anabranch entrance and exit. Complete channel abandonment and subsequent fill of up to 3 m of sediment took approximately two years. Thirteen kilometres of ground‐penetrating radar surveys, coupled with 18 cores, were obtained over the channel fill and an adjacent 750 m long, 400 m wide, compound bar, enabling a quantitative analysis of the channel and bar deposits. Results show that, in terms of grain‐size trends, facies proportions and scale of deposits, there are only subtle differences between the channel fill and bar deposits which, therefore, renders them indistinguishable. Thus, it may be inappropriate to assign different geometric and sedimentological attributes to channel fill and bar facies in object‐based models of sandy braided river alluvial architecture.     

南苏丹Melut盆地Palogue油田古近系Yabus组河型演化规律及主控因素分析*

针对南苏丹Melut盆地Palogue油田Yabus组独特的辫状河—曲流河沉积体系,利用定量统计和成因动态分析方法,通过引入“微相砂体密度”变量,深入总结了辫状河和曲流河不同的垂向岩相序列,从空间演化角度详细阐述了辫状河和曲流河的差异沉积过程及其河型转化规律,建立了同一物源体系下不同阶段河型转化的沉积模式,并明确了河型转化的主控因素。研究表明: Yabus组河流沉积体系先后经历了3个演化阶段。早期辫状河形成阶段,沉积物顺流加积形成垂向沙坝;中期辫—曲交汇沉积阶段,河流下切作用明显减弱,河流沉积作用转变为侧向加积,在辫状河道中形成斜列砂坝,且辫流坝开始向河道边部迁移形成曲流河点坝;晚期曲流河发育阶段,河道弯度大且砂体沉积规模小。     

下切性河流的床沙响应与纵剖面调整机制

天然河流中一些下切性河流具有独特的河床演变规律,如不规则形式的纵剖面等。通过现场调查、资料统计和GIS分析等方式,探讨了河道自然下切过程中河床演变相关机理及其对河流纵剖面的影响,揭示了其中蕴含的定量规律。分析结果表明,下切性河流系统存在床沙的响应与补偿机制,是河流系统由下切转为平衡的重要动力因素之一。响应调整后深切河段的床沙能消耗更多侵蚀能量,从而维持高比降的陡坡河道。因此,下切深度的沿程分布与一些特殊的纵剖面形态有关。经统计发现,流量与床沙（下垫面条件）是最重要的纵剖面控制性因素,引入量纲一参数可与比降建立良好的线性关系。     

库车坳陷中生界三种类型三角洲的比较研究

库车坳陷中生代呈北陡南缓的箕状,其内连续沉积了一套厚度巨大的冲积-湖泊碎屑沉积体。湖缘扇三角洲、辫状河三角洲及曲流河三角洲非常发育,它们的特征清楚、区别明显:（1） 扇三角洲为突发的、瞬时的灾变事件产生的重力流沉积与间灾变期正常牵引流沉积交替进行,并以重力流沉积占主导地位:其平原亚相类似于冲积扇沉积,河道砂体呈透镜状,厚度小、变化大。（2） 辫状河三角洲为正常的河流牵引流沉积,通常受到湍急洪水控制,为季节性沉积作用产物;平原亚相类似于辫状河沉积;河道沉积发育,砂体总体呈层状,内部由若干个下粗上细的河道砂岩透镜体相互叠置而成,交错层发育,尤以侧积交错层异常发育为特征,岩性以颗粒支撑的砂砾岩为主。（3） 曲流河三角洲为正常的河流牵引流沉积,沉积物输入量为相对连续的终年河流的产物,平原亚相类似于曲流河沉积:河道砂体呈层状,交错层发育,类型丰富。当然,这三种类型三角洲之间亦存在着密不可分的内在联系,不仅同一时期内可以并存,而且随着地质历史的演化可相互转化。     

渤海湾中部南堡35-2地区新第三系河流沉积及油气勘探意义

渤海湾中部南堡35-2地区新三系河流沉积十分发育，可分为曲流河沉积和辫状河沉积两种类型。曲流河沉积以发育点砂坝、决口扇、天然堤和泛滥平原等微相单元为特征。辫状河沉积主要发育河道和心滩微相，泛滥平原微相不太发育。本重点研究了河流沉积各类微相的沉积特点，并将河流沉积的垂向层序归纳为6种类型。本还探讨了各类砂体的储集物性特征，认为点砂坝和心滩砂体是形成大油气田的优质储层，而油气藏的形成除与砂体的储集物性有关外，主要与区域构造条件密切相关。     

Morphology and evolution of bars in a wandering gravel-bed river; lower Fraser river, British Columbia, Canada

A hierarchical typology for the channels and bars within aggradational wandering gravel-bed rivers is developed from an examination of a 50 km reach of lower Fraser River, British Columbia, Canada. Unit bars, built by stacking of gravelly bedload sheets, are the key dynamic element of the sediment transfer system, linking sediment transport during individual freshets to the creation, development and remoulding of compound bar platforms that have either a lateral or medial style. Primary and secondary unit bars are identified, respectively, as those that deliver sediment to compound bars from the principal channel and those that redistribute sediment across the compound bar via seasonal anabranches and smaller channels. The record of bar accretion evident in ground-penetrating radar sequences is consistent with the long-term development of bar complexes derived from historical aerial photographs. For two compound bars, inter-annual changes associated with individual sediment transport episodes are measured using detailed topographic surveys and longer-term changes are quantified using sediment budgets derived for individual bars from periodic channel surveys. Annual sediment turnover on the bars is comparable with the bed material transfer rate along the channel, indicating that relatively little bed material bypasses the bars. Bar construction and change are accomplished mainly by lateral accretion as the river has limited capacity to raise bed load onto higher surfaces. Styles of accretion and erosion and, therefore, the major bar form morphologies on Fraser River are familiar and consistent with those in gravelly braided channels but the wandering style does exhibit some distinctive features. For example, 65-year histories reveal the potential for long sequences of uninterrupted accretion in relatively stable wandering rivers that are unlikely in braided rivers.     

Reappraisal of Precambrian sheet‐braided rivers: Evidence for 1·9 Ga deep‐channelled drainage

The repetitive sedimentology of many Precambrian sheet‐dominated fluvial sandstones favoured their attribution to unconfined depositional processes. This article presents outcrop evidence for deep‐channelled drainage in the 1·9 Ga Burnside River Formation of Kilohigok Basin, Arctic Canada. On the ground, sheet‐like sandbodies with ubiquitous cross‐bedding are at first consistent with classic, unconfined depositional models. However, satellite and oblique‐aerial imagery of sections up to 15 km wide and 500 m thick reveals the occurrence of incised palaeovalleys hosting clustered, kilometre‐scale, channel bodies with attached large foreset bars pointing to downstream‐lateral accretion, sand sheets with aspect ratios (i.e. width to thickness) as high as 2500, and scattered aeolian intervals. The genetic association of these architectural elements points to aggradational fluvial piedmonts composed of low‐relief unit bars generated by braidplain channels several metres deep. Preservation of aeolianites was facilitated by fluctuating groundwater table and accommodation. Fluvial piedmonts were transected by weakly sinuous channel belts up to 25 m deep and characterized by through‐going or tributary planform. Aspect ratios comparable with those of late Palaeozoic to modern braided channels disprove the inference that all Precambrian streams readily widened in response to increased discharge. Previous facies models for large‐scale Precambrian sheet‐braided rivers failed to depict entire channel forms, possibly because they could not be resolved by ground‐based observations. Based on their limited geomorphic variability and abundance of architectural elements with very high aspect ratios, this study recommends that large sheet‐braided fluvial systems should still be considered separately from their post‐Silurian (i.e. vegetated) braided counterparts. Parallels between sheet‐braided and modern dryland rivers do not, however, reconcile with the deep, perennial, channelized processes described here. Yet, distal sand‐bed and perennial reaches of modern sandur plains remain the closest analogue to sheet‐braided rivers. This conjecture contradicts the assumption that all Precambrian rivers were prone to simulate seasonal behaviours independently from their actual climate regime.     

基准面旋回控制的河流相储层差异构型模式: 以山西大同侏罗系露头为例

我国河流相储层大多已进入开发后期,急需表征内部复杂构型分布,但目前河流相差异构型模式及控制因素研究还很薄弱,油田区构型表征模式指导不够.因此,以山西大同露头为研究对象,采用露头精细描述与测量、GR测定、粒度分析等方法建立了河流相储层差异构型模式.研究认为:基于砂地比、古水深将露头区划分为9个短期、2个中期基准面旋回,中期基准面旋回不同位置河型差异明显;随着基准面升高与河型的转化,由狭长状心滩坝转变为正常的心滩坝,再过渡窄带状心滩坝或点坝的组合样式,最后演变为马蹄状点坝;3种河型砂坝（心滩坝或点坝）厚度与宽度、砂坝宽度与河道宽度均具有较好的正相关关系.研究成果可为相似露头构型分析提供借鉴,亦可为相似油田区构型精细表征提供模式指导.      

Unit bar architecture in a highly-variable fluvial discharge regime: Examples from the Burdekin River,Australia

Unit bars are relatively large bedforms that develop in rivers over a wide range of climatic regimes. Unit bars formed within the highly-variable discharge Burdekin River in Queensland, Australia, were examined over three field campaigns between 2015 and 2017. These bars had complex internal structures, dominated by co-sets of cross-stratified and planar-stratified sets. The cross-stratified sets tended to down-climb. The development of complex internal structures was primarily a result of three processes: (i) superimposed bedforms reworking the unit bar avalanche face; (ii) variable discharge triggering reactivation surfaces; and (iii) changes in bar growth direction induced by stage change. Internal structures varied along the length and across the width of unit bars. For the former, down-climbing cross-stratified sets tended to pass into single planar cross-stratified deposits at the downstream end of emergent bars; such variation related to changes in fluvial conditions whilst bars were active. A hierarchy of six categories of fluvial unsteadiness is proposed, with these discussed in relation to their effects on unit bar (and dune) internal structure. Across-deposit variation was caused by changes in superimposed bedform and bar character along bar crests; such changes related to the three-dimensionality of the channel and bar geometry when bars were active. Variation in internal structure is likely to be more pronounced in unit bar deposits than in smaller bedform (for example, dune) deposits formed in the same river. This is because smaller bedforms are more easily washed out or modified by changing discharge conditions and their smaller dimensions restrict the variation in flow conditions that occur over their width. In regimes where unit bar deposits are well-preserved, their architectural variability is a potential aid to their identification. This complex architecture also allows greater resolution in interpreting the conditions before and during bar initiation and development.     

Precambrian snapshots: Morphodynamics of Torridonian fluvial braid bars revealed by three‐dimensional photogrammetry and outcrop sedimentology

Pre‐vegetation fluvial channels have long been considered predominantly sheet‐like in geometry, owing to hydraulic sections that rapidly widened rather than incise during floods. This motif has been paralleled to that of modern dryland rivers subject to sharp discharge fluctuations during ephemeral floods. However, a number of Precambrian fluvial successions have been recently appraised as the product of deep‐channelled systems characterized by relatively stable – probably perennial – discharge regimes. One such example is the ca 1·0 Ga Applecross Formation, part of the well‐studied Torridon Group of Scotland. To contribute to this debate and to provide refined morphodynamic models for the Applecross Formation, this article presents an integration of three‐dimensional photogrammetry and outcrop sedimentology applied to key exposures at Stoer Peninsula, north‐western Scottish Highlands. Analysis of selected sandbodies reveals that high‐relief fluvial sand bars, both mid‐channel and bank‐attached, evolved within deep, braided‐channel belts. These bars grew through complex mechanisms of accretion and reactivation related to different flood stages: upstream and downstream accretion probably occurred during waning‐flood stages characterized by high hydrograph levels and abundant sediment availability; lateral accretion took place during later waning‐flood stages, and it was associated in some cases with helical recirculation and increase in bend sinuosity. Overall, the depicted morphodynamics are consistent with prolonged flood events that cannot be reconciled with sharply fluctuating discharge regimes. Critical comparisons between the internal geometry of the studied bars and modern counterparts corroborate the findings herein. Thus, this study recommends stricter comparisons between the products of modern braided channels and Precambrian fluvial rock records featuring thick and well‐developed bar forms.     

中国现代网状河流沉积特征和沉积模式

中国境内的许多河流发育有网状河段,从长江、黑龙江、珠江等这样的大型河流到嫩江、赣江等中小型河流都有。依据这些网状河的地理和构造背景的不同,可以把它们划分为:平原网状河流、山谷网状河流、入湖三角洲平原网状河流和入海三角洲平原网状河流四大类型。作者通过实地挖掘探槽、密集采样,对嫩江齐齐哈尔平原网状河段、赣江入湖三角洲平原网状河段、珠江入海三角洲平原网状河段沉积特征进行了详细描述和研究,并建立了网状河的沉积模式,探讨了网状河的成因。认为网状河流体系的发育不受气候和地理位置的限制,低坡降是形成网状河的必要条件,相对稳定的网状河道不同于曲流河和辫状河,湿地环境是网状河流体系中最发育的地貌单元,堤岸植被繁茂、粘结性高是河道稳定的重要因素,与曲流河和辫状河相比,网状河出现的几率较低。     

A quantitative, three-dimensional depositional model of gravelly braided rivers

A quantitative, three‐dimensional depositional model of gravelly, braided rivers has been developed based largely on the deposits of the Sagavanirktok River in northern Alaska. These deposits were described using cores, wireline logs, trenches and ground‐penetrating radar profiles. The origin of the deposits was inferred from observations of: (1) channel and bar formation and migration and channel filling, interpreted from aerial photographs; (2) water flow during floods; and (3) the topography and texture of the river bed at low‐flow stage. This depositional model quantitatively represents the geometry of the different scales of strataset, the spatial relationships among them and their sediment texture distribution. Porosity and permeability in the model are related to sediment texture. The geometry of a particular type and scale of strataset is related to the geometry and migration of the bedform type (e.g. ripples, dunes, bedload sheets, bars) associated with deposition of the strataset. In particular, the length‐to‐thickness ratio of stratasets is similar to the wavelength‐to‐height ratio of associated bedforms. Furthermore, the wavelength and height of bedforms such as dunes and bars are related to channel depth and width. Therefore, the thickness of a particular scale of strataset (i.e. medium‐scale cross‐sets and large‐scale sets of inclined strata) will vary with river dimensions. These relationships between the dimensions of stratasets, bedforms and channels mean that this depositional model can be applied to other gravelly fluvial deposits. The depositional model can be used to interpret the origin of ancient gravelly fluvial deposits and to aid in the characterization of gravelly fluvial aquifers and hydrocarbon reservoirs.     

曲流串沟型江心洲形成机制与演化探讨

曲流串沟型江心洲是现代河流水利学研究关注的重要河流要素,不同于曲流河点坝和辫状河心滩,但在油气储层沉积学研究中鲜有关注。选取现代松花江典型河段,开展基于水动力学的沉积数值模拟,恢复曲流串沟型江心洲的演化过程,建立了曲流串沟型江心洲演化模式。研究结果表明:1）洪水期曲流河发生漫滩冲刷,串沟发育扩张,截弯取直,形成分汊河道及江心洲地貌;2）分汊偏移角、相对梯度优势可用于预测短期汊道存在的稳定性;3）串沟型江心洲形成于曲流点坝残余沉积之上,发育洲头侵蚀、洲尾加积、翼部双侧积,但垂向加积主要发育在顶部,不构成沉积主体结构。通过上述研究建立了曲流江心洲沉积模式,揭示了曲流河江心洲内部结构及分汊河道水动力特征,对现代河流治理和地下河流沉积储层刻画有指导意义。     

辫状河致密砂岩储层构型单元定量表征方法

针对现有辫状河储层构型单元定量表征方法关键参数获取困难且可靠性存疑的问题,以储层构型理论为指导,基于现代辫状河沉积、钻井岩心、录井和测井等资料,提出了基于单一辫状河道宽度的构型单元定量表征方法。首先,根据单井构型单元解释结果,确定同期辫状河道平面分布;其次,根据连井对比剖面,确定连井剖面内单一辫状河道间的界线位置;再次,根据现代辫状河单一辫状河道宽度与构型单元关系定量模型,限定辫状水道宽度、复合心滩长度及宽度等4级构型单元规模;最后,在单一辫状河道内确定4级构型单元平面分布,进而在密集井网区对复合心滩进行解剖,确定单个心滩位置和几何形态。采用该方法对苏××提高采收率试验区盒₈^下_1-3单层辫状河致密砂岩气藏进行了分析,结果表明：该单层砂岩气藏发育5条单一辫状河道,其宽度为1 050~1 890 m;辫状水道宽度为234~435 m;复合心滩长度和宽度分别为1 931~3 569 m、685~1 242 m;单个心滩长度和宽度分别为660~1 880 m、310~1 030 m。     

鄂尔多斯盆地早侏罗世富县期岩相古地理特征

在综合研究钻井剖面、野外露头基础上，结合室内编图、比层对比资料，指出早侏罗世富县期冲积扇－河流相沉积与古地貌密切相关，其古地理格局受印支运动后古构造面上的五条河谷控制；区内存在的冲积扇，分布于深沟河谷的陡壁一侧，为进积型冲积扇；富县期5条河流除晋陕河流为网状砂质河流外，其余均为低弯度砾砂质河流，边滩与洪泛平原微相沉积分布较广，并认为甘陕主河道流向为由西向东，“杂富县”为富县晚期洪泛平原微相产物。     

鄂尔多斯盆地麻黄山西区块北部中侏罗统延安组延一段沉积特征

本文通过岩心观察、录测井及岩心粒度资料,埘鄂尔多斯盆地麻黄山西区块北部中侏罗统延安组延一段的岩石组分、结构构造、粒度分布等特征进行分析,确定其沉积相类型。结果表明：延安组延一段属河流沉积体系,发育辫状河和曲流河两种沉积类型,主要包括河床和河漫两个亚相,可进一步识别出河床滞留、心滩、边滩、河漫滩、河漫沼泽、决口扇等微相。延一段延10油层组沉积时期,研究区以辫状河沉积为主,心滩发育,河道较宽,平面上摆动宽度为2～8km,主水流方向由西北至东南;延一段延9油层组沉积时期,受鄂尔多斯盆地湖水面整体抬升的影响,河道分布范围逐渐缩小,研究区以曲流河沉积为主,发育两条曲流河,平面上摆动宽度约2～4km,河道凸岸发育边滩沉积。     

河流沉积学研究热点与进展--第11届国际河流沉积学大会综述

第11届国际河流沉积学大会于2017年7月17日-21日在加拿大卡尔加里大学举行,每四年举行一次的国际河流沉积学学术会议,吸引了当今北美、欧洲、澳洲及亚洲从事河流沉积学及相关学科研究的众多知名学者参会,研究成果充分体现了当前国际河流沉积学研究取得的重要进展和发展方向。重要进展有:1）河流动力学及其变化过程研究。其中包括将今论古法论现代河流沉积过程与古老地层对比,河道-洪泛平原体系的越岸复合沉积动力学,河流动力学与变化过程研究展望,恢复河道迁移过程:新一代平面图演化模式的讨论,冲积河流和基岩河流的湍流、颗粒间作用和沉积作用;2）陆缘河流。包括河流入海处的地貌动力学与沉积学,河流补给边缘的沉积物搬运、地貌和地层特征,干旱地区河流、冲积扇体系与风的相互作用,植被生长前、无植物生长、或是植被发育区河流的沉积过程研究;3）河流沉积地层及其地下资源。包括源-汇系统,"河流相模式"是否有用的讨论,辫状河、网状河、曲流河概念的厘定等;4）河流地貌变化。包括气候改变、泥泞植被洪泛平原等对河流沉积物通量、河流模式等产生影响,河道中冲积岛屿的演化和稳定河流的蛇曲化,河流环境中沉积物生物作用等。基于上述资料分析,认为河流演化过程从定性向定量化研究,物理模拟与数值模拟技术是河流沉积学研究不可或缺的手段,应用定量建模、数学计算等方法进行精准研究,碎屑锆石U-Pb定年技术是新一代从源到汇研究的重要工具等诸多方面,是我国学者应该重视并开展研究的方向。     

Recent geomorphological changes of the middle and lower Calore River (Campania, Southern Italy)

The geomorphological changes experienced by the middle and lower Calore River (Southern Italy) between 1957 and 1998 were investigated. Data derived from field surveys and interpretation of topographic maps and aerial photos were introduced into a geographic information system (GIS) and processed. The results showed that the Calore River underwent a mean narrowing of 66 %, with a peak of 86 %. The channel length increased by approximately 75 m and the sinuosity from 1.311 to 1.314. The extension of fluvial bars reduced by more than 83 %, while their number increased from 151 to 381. Field evidence of riverbed lowering, such as river terraces formed in the considered time span and exhumation of foundations of bridges and flood-walls, were also constantly detected. Due to these channel adjustments, the Calore River morphology changed from transitional to single-thread. These results were coherent with those reported in the pre-existing literature about channel adjustments experienced by many rivers during the twentieth century. They all were explainable with a reduction of the bedload transport; this latter, in turn, is completely in accordance with the environmental changes that affected the Calore River system in the considered period (i.e., damming and/or channelization of the main tributaries, reduction of liquid discharge due to water withdrawals and sediment mining from the riverbed).     

东胜煤田北部延安组沉积体系及聚煤特征

鄂尔多斯盆地延安组在全盆地发育,是盆地内最重要的含煤、油、气地层之一,依据大量的钻井、测井资料,运用沉积学的方法,对东胜煤田艾来五库沟-台吉召延安组沉积体系及聚煤特征进行了分析。研究认为延安组为辫状河、曲流河及辫状河三角洲沉积,沉积微相主要发育有辫状河体系的河床滞留沉积及心滩、河漫滩和河漫沼泽沉积;曲流河体系的河床滞留沉积、边滩、天然堤、河漫滩、河漫沼泽和河漫湖泊沉积;辫状河三角洲体系的分支河道、天然堤和河漫沼泽沉积等。辫状河及曲流河垂向上表现为下粗上细的间断性正韵律或正旋回,为典型的河流二元结构特征。聚煤特征分析认为,辫状河和曲流河体系河漫沼泽环境是有利成煤场所,由于河道的冲刷、下切作用,辫状河道和曲流河道形成的煤层厚度较小、侧向连续性差;三角洲体系的三角洲平原是有利的成煤带,其煤层具有厚度较大、结构较为简单、分布范围较广、连续性较好的特征。