天然气提高采收率理论基础、技术方法与发展方向

中国大部分主力气田相继进入开发中后期且整体采收率不高,天然气提高采收率研究与实践形势迫切。为了促进天然气提高采收率理论技术进步和开发水平提高,建立了统一、具有普遍适用性的天然气采收率评价模型,分析了影响天然气采收率的关键因素,明确了天然气提高采收率发展前景与方向。研究结果表明:①储量利用程度、压降波及系数和压力衰竭效率是影响天然气采收率的3个关键因素,天然气采收率是3个关键因素对应系数的乘积;②结合安岳气田龙王庙组气藏、克拉2气田、苏里格气田和川南页岩气等开发实践,针对常规水驱气藏、致密气和页岩气等非常规气,通过提高储量利用程度、压降波及系数和压力衰竭效率预计可提高采收率6~15个百分点;③提出了天然气提高采收率理论技术攻关方向,包括明确气藏提高采收率机理、研发提高采收率新方法、加强提高采收率技术现场试验。结论认为,研究结果奠定了天然气提高采收率理论基础,系统形成了不同类型气藏提高采收率技术方法,为已开发气田提高采收率和持续稳产提供了技术支持,并可促进我国天然气产业持续健康快速发展,对保障国家能源安全具有重要指导意义。

常规天然气藏均衡开发理论与关键核心技术

常规天然气藏(含致密气藏)是天然气产量的主力军和“压舱石”。为了推动我国气田开发水平的整体提升,基于气藏开发实践认识,剖析了常规天然气藏开发面临的非均衡动用与非均匀水侵两个核心问题,提出了常规气均衡开发理论,建立了天然气采收率数学评价模型,并依据模型关键参数确定了气藏均衡开发关键核心技术。研究结果表明:①气藏均衡开发理论内涵是通过打开压降通道或控制气水关系,降低气藏废弃压力,实现地层能量利用效率和采收率最大化;②气藏压降波及系数、压力衰竭效率、水侵波及系数及宏观水驱气效率是影响天然气采收率的4个关键参数,4个关键参数的乘积与叠加组合影响相应水侵与非水侵气藏的采收率;③气藏均衡开发基本原理包括储量均衡动用和气藏均衡压降2个方面,储量均衡动用核心技术包括开发单元精细划分、井型井网优化、储层改造与地面增压,气藏均衡压降核心技术包括水侵优势通道刻画、生产制度优化、水侵动态预警与综合治水等;(4)常规天然气藏开发始终要围绕提高4个关键参数开展工作,进而实现气藏的均衡开发,实现气藏开发效益最大化。结论认为,均衡开发理论的提出和实践有效支撑了鄂尔多斯盆地苏里格致密砂岩气藏和四川盆地安岳气田龙王庙组气藏的高效开发,该理论与技术对推动我国常规天然气藏提高采收率以及保障国家能源安全具有重要作用。

Oxidization characteristics and thermal miscible flooding of high pressure air injection in light oil reservoirs

Physical modeling,numerical simulation and field case analysis were carried out to find out the subsurface thermal oxidation state,thermal oxidation front characteristics and production dynamic characteristics of high pressure air injection thermal oxidation miscible flooding technology.The lighter the composition and the lower the viscosity of the crude oil,the lower the fuel consumption and the combustion temperature are.The thermal oxidation front of light oil and volatile oil can advance stably,and a medium-temperature thermal oxidation stable displacement state can be formed in the light oil reservoir under high pressure conditions.With strong thermal gasification and distillation,light oil and volatile oil are likely to form a single phase zone of gasification and distillation with thermal flue gas at the high-temperature and high-pressure heat front,finally,an air-injection thermal miscible front.In light oil reservoirs,the development process of high-pressure air-injection thermal miscible flooding can be divided into three stages:boosting pressure stage,low gas-oil ratio and high-efficiency stable production stage and high gas-oil ratio production stage.Approximately 70%of crude oil is produced during the boosting pressure stage and low gas-oil ratio high-efficiency and stable production stage.

Theory, technology and prospects of conventional and unconventional natural gas

The development of natural gas in China has entered a golden and leap-forward stage, which is a necessary bridge to clean energy. This in-depth study on the status quo, theory, technology and prospect of natural gas development shows:(1) The global remaining proven recoverable reserves of natural gas are 186×1012 m3, and the reserves-production ratio is 52.4, indicating a solid resource base for long-term and rapid development.(2) Ten formation and distribution laws of conventional and unconventional natural gas reservoirs have been proposed. In terms of exploration geology, the theory of conventional "monolithic" giant gas fields with different gas sources, and an unconventional gas accumulation theory with continuous distribution of "sweet areas" in different lithologic reservoirs have been established; in terms of development geology, a development theory of conventional structural gas reservoirs is oriented to "controlling water intrusion", while a development theory of unconventional gas is concentrated on man-made gas reservoirs.(3) With the geological resources(excluding hydrates) of 210×1012 m3 and the total proven rate of the resources less than 2% at present, the natural gas in China will see a constant increase in reserve and production; by 2030, the proven geological reserves of natural gas are expected to reach about(6 000-7 000)×108 m3, the production of conventional and unconventional natural gas each will reach about 1 000×108 m3, and the gas consumption will reach 5 500×108 m3. The dependence on imported natural gas may be 64% by 2030, and 70% by 2050.(4) Ten measures for future development of natural gas have been proposed, including strengthening exploration in large-scale resource areas, increasing the development benefits of unconventional gas, and enhancing the peak adjusting capacity of gas storage and scale construction of liquified natural gas.

Discussion on the limit recovery factor of carbon dioxide flooding in a permanent sequestration scenario

Based on practices of CO_(2) flooding tests in China and abroad,the recovery factor of carbon dioxide capture,utilization in displacing oil and storage(CCUS-EOR)in permanent sequestration scenario has been investigated in this work.Under the background of carbon neutrality,carbon dioxide injection into geological bodies should pursue the goal of permanent sequestration for effective carbon emission reduction.Hence,CCUS-EOR is an ultimate development method for oil reservoirs to maximize oil recovery.The limit recovery factor of CCUS-EOR development mode is put forward,the connotation differences between it and ultimate recovery factor and economically reasonable recovery factor are clarified.It is concluded that limit recovery factor is achievable with mature supporting technical base for the whole process of CCUS-EOR.Based on statistics of practical data of CO_(2) flooding projects in China and abroad such as North H79 block CO_(2) flooding pilot test at small well spacing in Jilin Oilfield etc.,the empirical relationship between the oil recovery factor of miscible CO_(2) flooding and cumulative CO_(2) volume injected is obtained by regression.Combined with the concept of oil production rate multiplier of gas flooding,a reservoir engineering method calculating CO_(2) flooding recovery factor under any miscible degree is established by derivation.It is found that when the cumulative CO_(2) volume injected is 1.5 times the hydrocarbon pore volume(HCPV),the relative deviation and the absolute difference between the recovery percentage and the limit recovery factor are less than 5%and less than 2.0 percentage points respectively.The limit recovery factor of CCUS-EOR can only be approached by large pore volume(PV)injection based on the technology of expanding swept volume.It needs to be realized from three aspects:large PV injection scheme design,enhancing miscibility degree and continuously expanding swept volume of injected CO_(2).

Characteristics and development model of karst reservoirs in the fourth member of Sinian Dengying Formation in central Sichuan Basin,SW China

The reservoir space,types and distribution characteristics of karst carbonate gas reservoirs in the fourth member of Sinian Dengying Formation(Deng 4 Member)in central Sichuan Basin are analyzed based on the drilling,logging and seismic data.A development model of karst reservoirs is constructed to support the high-efficiency development of gas pools.The research shows that the reservoirs in Deng 4 Member have mainly small-scale karst vugs and fractures as storage space,and can be divided into three types,fracture-vug,pore-vug and pore types.The development patterns of the karst reservoirs are determined.On the plane,the karst layers increase from 65 m to 170 m in thickness from the karst platform to the karst slope,and the high-quality reservoirs increase from 25.0 m to 42.2 m in thickness;vertically,the reservoirs at the top of Deng 4 Member appear in multiple layers,and show along-bedding and along fracture dissolution characteristics.The reservoirs at the bottom are characterized by the dissolution parallel to the water level during the karstification period,and have 3-5 large-scale fracture-cave systems.Based on the reservoir development characteristics and the genetic mechanism,three types of reservoir development models of karst reservoir are established,i.e.,bed-dissolved body,fracture-dissolved body and paleohorizon-dissolved body.The construction of karst reservoir development models and seismic response characteristics of the three types of reservoirs can provide parameter for well placement and trajectory design,and substantially improve productivity and development indices of individual wells and gas reservoirs.The designed production capacity of the gas reservoir has enhanced from the initial 3.6 billion to 6 billion cubic meters,making the profit of the reservoir development increase noticeably.

The establishment of a new deliverability equation considering threshold pressure gradient

The flowing mechanism of a low permeability gas reservoir is different from a conventional gas reservoir,especially for that with higher irreducible water saturation the threshold pressure gradient exists. At present,in all the deliverability equation,the additional pressure drop caused by the threshold pressure gradient is viewed as constant,but this method has big error in the practical application. Based on the non-Darcy steady flow equation,the limited integral of the additional pressure drop is solved in this paper and it is realized that the additional pressure drop is not a constant but has something to do with production data,and a new deliverability equation is derived,with the relevant processing method for modified isochronal test data. The new deliverability equation turns out to be practical through onsite application.

基于层次分析法的地热资源评价体系研究——以河北省曹妃甸地区中深层水热型砂岩储层为例

为定量评价目标区域中深层水热型地热资源品质,以沉积盆地内中深层水热型地热资源为研究对象,以地热资源品质评价为主要内容,深入分析地热地质条件、地热资源量和地热流体质量3个部分。选择对地热资源影响较大的16项指标,使用层次分析法对每项指标进行权重赋值,将中深层水热型地热资源划分为三级7类。Ⅰ级区域为资源优势区,可进行高效开发;Ⅱ级区域为资源富集区,满足工业开发要求;Ⅲ级区域为资源不富集区,最终形成一套可量化评价的资源评价体系,为地热资源是否可进行利用提供数据分析结论。通过河北省唐山市曹妃甸区地热供暖项目的实际应用效果作为案例,验证了评价体系的针对性、实用性。

常规-非常规天然气理论、技术及前景

中国天然气进入跨越式发展的黄金时期,成为向清洁能源过渡不可逾越的桥梁。通过对国内外天然气发展现状、理论技术、潜力前景进行重点研究和阐述,结果表明:(1)全球天然气资源丰富,剩余探明可采储量186×10^(12) m^3,储采比为52.4,具备长期加快发展的资源基础;(2)提出了常规-非常规天然气地质学内涵,其形成分布具有10条规律,天然气勘探地质形成以不同气源为核心的常规圈闭"单体型"大气田成藏理论、以不同岩类储集层为核心的非常规"连续型"甜点区聚集理论,天然气开发地质形成以常规"控制水侵"为核心的构造气藏开发理论、以"人工气藏"为核心的非常规天然气开发理论;(3)中国天然气地质资源量(不含天然气水合物)达210×10^(12) m^3,整体探明率不足2%,天然气储产量将持续增长,预计2030年前年增探明地质储量约为(6 000～7 000)×10~8 m^3,预计2030年常规、非常规气产量均有望达到1 000×10~8 m^3左右,消费量需求可达5 500×10~8 m^3,天然气对外依存度可能达到64%,2050年可能达到70%;(4)提出中国未来天然气发展应加大资源规模区勘探力度、提高非常规气开发效益、增强储气库调峰与LNG(液化天然气)规模建设等10条措施。

四川盆地安岳气田震旦系气藏叠合岩溶发育模式与主控因素

通过对四川盆地安岳气田震旦系气藏岩溶储层发育特征和完钻气井测试产能综合分析,从碳酸盐岩岩溶储层发育机制出发,提出叠合岩溶概念和发育模式,明确了叠合岩溶发育主控因素及其对完钻气井产能的控制作用。利用岩心、成像资料,考虑储集空间类型、大小以及缝洞搭配关系,将灯影组四段(灯四段)岩溶储层划分为缝洞型、孔洞型和孔隙型3种类型,缝洞型和孔洞型是灯四段优质储层。受原始沉积体岩性、物性及岩溶期古地貌特征差异影响,岩溶风化溶蚀深度、优质储层垂向发育位置及平面展布范围等特征存在差异。建立了"差异溶蚀"的叠合岩溶发育模式,指出丘滩体沉积特征、两期风化壳叠合程度、岩溶期断裂系统发育规模以及构造翻转的地质过程综合控制了叠合岩溶储层发育,同时叠合岩溶发育强度控制气井产能分布。叠合岩溶发育区是气藏开发优先目标,其储层发育模式与主控因素的研究对于安岳气田震旦系气藏开发评价、建产区筛选和井位部署具有重要的指导意义。

苏里格气田西区高含水致密砂岩气藏差异化开发技术对策

苏里格气田是典型的致密砂岩气田,年产气量达250×10^(8)m^(3),气田西区是苏里格气田长期稳产的重要后备储量区。由于该区低阻气层和富集区识别困难,生产井气水同产、携液能力弱,制约了该区天然气的有效开发。为此,以气藏地质特征为基础,从动、静态结合角度出发,开展了产层测井识别、气水分布控制因素、富集区优选及不同天然气富集级别区差异化开发技术对策等研究。结果表明:①西区具有气水分异差,气、水层混杂分布,无统一气水界面的气水分布特征;②生烃强度、储集层非均质性对气水分布具有主控作用,生烃强度控制了气、水分布的宏观格局,区域生烃强度越大,气层相对越发育,储层非均质性则控制天然气的局部充注和聚集成藏;③气水分布模式纵向上可划分为上水下气型、上气下水型、上下水夹气型、巨厚储层气水混存型及纯气型5种类型;④针对气田开发主要面临的4个方面的挑战,提出了以产层测井识别、富集区优选、产水劈分、生产制度及排采周期优化为核心的高含水致密砂岩气藏差异化开发技术对策。结论认为,形成的高含水致密砂岩气藏差异化开发技术对策能够解决苏里格气田开发面临的4个挑战,可为气田持续稳产提供技术支撑,且对同类型气藏开发具有参考和借鉴意义。

世界天然气产业形势与发展趋势

天然气产业发展是促进能源消费结构由高碳化石能源为主体向无碳新能源为主体转变的桥梁和纽带,是实现第三次世界能源转型的关键。为加快我国天然气产业发展、构建新常态下安全、先进、高效的国家能源体系,在回顾世界天然气产业发展的基础上,站在能源体系转型的高度和历史发展的维度,从7大视角深刻剖析了世界天然气产业发展的动力,从4个方面全方位研判了世界天然气产业发展趋势。研究结果表明:①纵观世界天然气产业发展历程,天然气产业发展具有天然气自然属性、产业政策、上中下游的一体化协同三大驱动力;②世界能源体系形成“四分天下”的格局,天然气在能源结构中占比持续上升,大气田是世界天然气产量的基础和保障,天然气贸易呈现国际化、LNG与管道气均衡发展的形势,天然气在发电、工业燃料和城市燃气等终端消费领域用量持续上升;③“碳中和”与能源转型引领了世界天然气产业链全面发展,迎来天然气黄金发展期。结论认为,研究成果研判了世界天然气产业发展趋势,相关认识和建议不仅对我国天然气行业发展具有重要价值,而且对天然气在能源转型中作用的充分发挥具有指导意义。

轻质油藏高压注空气氧化特征与热混相驱技术

通过物理模拟实验、数值模拟和现场实例分析,综合研究轻质油藏高压注空气热混相驱的地下热氧化状态、热氧化前缘稳定性及生产动态特征。研究结果表明,原油组分越轻、黏度越低,热氧化燃料消耗量越低,氧化生热温度越低。稀油和挥发油热氧化前缘能够稳定推进,形成高压条件下的轻质油藏中温热氧化稳定驱替状态。稀油和挥发油的热气化和蒸馏作用强,容易在高压高温热氧化前缘与热烟道气一起形成气化和蒸馏单相区带,形成注空气热混相前缘。轻质油藏高压注空气热混相驱开发过程可分为增压见效、低气油比高效稳产、高气油比生产等3个阶段,增压见效阶段和低气油比高效稳产阶段产出70%以上的原油。

四川盆地川南地区五峰组—龙马溪组页岩储层分类评价

文章在资源评价和有利区优选的基础上,建立了川南地区五峰组-龙马溪组页岩储层分类评价标准。确定孔隙度(Φ)大于3%,含气饱和度(Sg)高于30%,岩石骨架密度(DEN)低于2.7 g/cm^3,脆性指数(BI)高于40%时,对应含气量(Vt)高于1 m^3/t,可识别出储层与非储层,是有效储层识别的标准。采用地质工程一体化评价思路,选取含气量表征页岩储层物质基础,与孔隙度和有机质丰度正相关;选取脆性指数评价工程可压性,与硅质和碳酸盐岩含量正相关,明确了含气量和脆性指数可综合表征页岩储层地质和工程两方面特征。进一步将有效储层划分为三类:Ⅰ类储层含气量(Vt)高于4m^3/t,脆性指数(BI)高于50%;Ⅱ类储层含气量与脆性指数中任何一项低于4m^3/t或50%;三类储层含气量(Vt)介于1~4m^3/t,脆性指数(BI)为40%~50%。川南地区五峰组-龙一1亚段各小层品质较好,以Ⅰ、Ⅱ类储层为主,局部为Ⅲ类储层。采用该分类评价标准,评价水平井实际钻遇储层品质,Ⅰ类储层比例与气井测试产量、EUR间呈正相关,且当Ⅰ类储层钻遇率高于50%,气井测试产量超过15×10^4m^3/d概率达到92%,对应气井EUR在8000×10^4m^3以上,达到效益开发的要求。

川中震旦系灯四段岩溶储集层特征与发育模式

基于钻井、录井、测井和地震等资料,系统分析四川盆地中部震旦系灯影组四段(简称灯四段)古老岩溶型碳酸盐岩储集空间特征、储集层类型和分布特征,构建岩溶储集层发育模式,支撑气藏实现高效开发。研究表明,灯四段储集层主要储渗空间为小尺度溶洞和裂缝,发育缝洞型、孔洞型和孔隙型3种储集层类型。明确岩溶储集层发育特征,平面上自岩溶台地到岩溶斜坡岩溶厚度由65 m增加到170 m,优质储集层厚度由25.0 m增加到42.2 m,纵向上灯四段顶部储集层多层展布,呈现顺层溶蚀和顺缝溶蚀特征,底部储集层存在3~5套规模较大的缝洞系统,呈现平行于岩溶期古水平面溶蚀特征。综合储集层发育特征,从成因机制出发,建立灯四段层溶体、缝溶体和面溶体3类储集层发育模式。构建3类岩溶储集层发育模式,明确其地震响应特征,为井位部署和轨迹设计提供参数依据,优化单井和气藏开发指标,气藏开发设计产能由初期的年产36×108 m^(3)提升到60×108 m^(3),大幅增加了气藏开发效益。

三孔均质复合碳酸盐岩气藏斜井试井解释模型

针对高石梯—磨溪地区碳酸盐岩气藏斜井近井带裂缝、溶洞发育,远井区基质广泛展布的特征,综合运用Laplace变换、Fourier变换及逆变换、点源函数叠加等方法,考虑井筒储集和表皮系数的影响,在无限大、定压及封闭3种外边界条件下,建立三孔均质复合碳酸盐岩气藏斜井试井模型,应用Stehfest数值反演方法对模型进行求解。与直井三孔均质复合模型解对比,验证了所建模型的正确性。通过绘制典型试井曲线划分流动阶段,分析井筒储集与表皮系数、窜流系数、内区半径及井斜角等对试井曲线的影响。典型试井曲线可划分为7个阶段,井筒储集系数增大将掩盖井斜角对试井曲线的影响,窜流系数影响窜流段出现时间,内区半径决定压力传播到内、外区交界面时间。井斜角小于50°,井斜角增大与表皮系数减小,试井曲线特征相似;井斜角大于50°,会存在明显的垂向径向流。

终极埋存情景下二氧化碳驱油极限采收率探讨

基于国内外CO_(2)驱油矿场实践启示,探讨终极埋存情景下二氧化碳捕集、驱油利用与埋存(CCUS-EOR)开发方式的采收率问题。碳中和背景下,向地质体注入CO_(2)应追求永久埋存,CCUS-EOR成为一种终极开发方式,应追求采收率最大化,为此提出了CO_(2)驱油极限采收率概念,明确其与终极采收率、经济合理采收率概念的内涵区别,指出实现极限采收率已具备成熟配套的CCUS-EOR全流程技术基础。根据吉林油田黑79北小井距CO_(2)驱先导试验等国内外CO_(2)驱油项目生产实际数据,回归得到了混相气驱采收率与累计注入量的经验关系式;结合气驱增产倍数概念,建立了任意混相程度下CO_(2)驱提高采收率幅度计算的油藏工程方法。累计注气量为1.5倍烃类孔隙体积时,采出程度与极限采收率的相对偏差小于5%,绝对差值小于2.0个百分点。基于扩大波及体积技术的大孔隙体积倍数注入是逼近CCUS-EOR极限采收率的必要条件,需从大孔隙体积注入方案设计、提高混相程度和持续扩大波及体积3个方面入手实现。

致密砂岩气藏水平井整体开发提高采收率——以长岭气田登娄库组气藏为例

针对致密砂岩气藏水平井整体开发中后期提高采收率对策不明确的问题,以长岭气田登娄库组气藏为例,借助地质建模和数值模拟技术,应用基于气体组成差异的产量劈分方法,在历史拟合基础上,开展气藏精细描述,划分剩余气分布类型,优化加密井型,优选采出程度和经济效益最佳的调整方案。研究结果表明:剩余气分布类型为连片集中展布型、点状局部富集型和边部分散型,剩余储量占比分别为80.3%、4.2%和15.5%;对于正对式、交错式水平井网,直井均为最优的加密井型;“补孔侧钻+加密+增压”方案采出程度最高;选取“补孔侧钻+加密”为最终的开发调整方案,预测期末采出程度可提高约5.5%。

哈法亚油田孔隙性石灰岩储层酸压先导性试验

中东地区哈法亚油田的Mishrif油藏为强非均质性整装背斜油藏,在构造边部进行酸压先导性改造试验过程中,受边底水影响,改造规模有限;储层岩石岩性纯不利于酸压过程中酸液的非均匀刻蚀;杨氏模量低,应力隔层遮挡能力较差,不利于缝长的延伸和缝高的控制;酸岩反应后原油乳化问题严重不利于返排。数值模拟和实验结果表明:针对储层特点,采用多级交替注入酸压工艺,优化注入工艺参数,能够增加酸岩反应作用距离,实现非均匀刻蚀;采用纤维暂堵降滤、互溶剂破乳助排配套技术,解决了压裂过程中酸液滤失大和压后返排困难的难题,最后阶段的闭合酸化增加了井筒附近的导流能力。优选了“交联压裂液+胶凝酸”的液体体系有效延缓了酸压反应速率,在现场MF3井取得了很好的应用效果,有效酸蚀缝长达到80 m,单井测试日产油达到317 t/d,储层改造效果显著。该研究为中东地区此类储层动用提供了有效的工程技术手段。

石油企业家胜任力模型构建与提升路径

企业家是影响企业发展的重要因素,胜任力是衡量企业家素质的重要指标。中国的石油企业作为国民经济发展的重要力量和保障国家能源安全的主力军,需要更多具备胜任力的石油企业家来推动企业实现高质量发展。文章在明确胜任力内涵的基础上,分析了新时代对石油企业家提出的要求,构建形成了以精神品质为梁、综合能力为柱、理论知识为基的中国的石油企业家胜任力模型,并提出通过思想淬炼、政治历练、实践锻炼、专业训练提升石油企业家胜任力的有效路径,为培养造就石油企业家提供理论指导。