【摘 要】
:
High oil price,oil and gas peak analysis,different data and reports about oil and gas reserves and production brought increasing concerns to the world.In this paper,we examined the importantly influen
【机 构】
:
Lab for Integration of Geology and Geophysics,China University of Petroleum,Beijing 102249;State Key
【出 处】
:
第五届油气成藏机理与油气资源评价国际学术研讨会
论文部分内容阅读
High oil price,oil and gas peak analysis,different data and reports about oil and gas reserves and production brought increasing concerns to the world.In this paper,we examined the importantly influencing factors of global oil and gas:discovery histories,proved reserves,production,consumption and oil price.By analyzing these factors and data from different organizations,we found all the factors can be attributed to risk and opportunity categories,and then we used the multi-Hubbert model and build a data model to forecast the production peak time of oil and gas.These two models were suitable for static environments and historical data to forecast the production,and the risk-opportunity-reserve analysis framework could be used in dynamic environments for strategic evaluation.Our model results showed that the world would reach the oil production peak almost 2015,and gas production peak was around 2030.Oil peak was coming and gas peak was on the way.The integrated risk-opportunity-reserve analysis provided a global vision and framework about conventional oil and gas situations,which was valuable to seek opportunities and reduce risks.This analysis can lead decision makers to quantify their risks with unrealistic levels of precision,to manage risks and to expose opportunities being underestimated.The main purpose of this paper was to tell people the truth of conventional resources and gave people enough time to prepare effective mitigation.
其他文献
喜山期过量干气对塔中Ⅰ号坡折带古油藏的气侵作用导致了油气分馏形成次生凝析气藏。前人关于塔中地区气侵的研究多数是定性描述,定量研究较少。本文以塔中Ⅰ号带塔中83井区为研究对象,剖析了该区的成藏地质条件,总结了其油气性质、组分的特征,开展了全油正构烷烃定量测试,计算了正构烷烃损率,对研究区气侵进行了定量评价。研究表明,沿塔中82走滑断裂和塔中Ⅰ号断裂交汇部位充注的高—过成熟度干气导致了研究区油气分馏,
塔里木盆地塔中地区奥陶系岩石热液矿化蚀变、Fe、Mn、Sr元素含量、C-O-S同位素、古地温异常及CO2无机成因气与储层包裹体测温等许多方面证实了深部流体的存在。深部流体活动既与古生代古昆仑洋的向南俯冲有关,又与中新生代塔里木板块陆内岩石圈伸展有关,既有来自洋壳俯冲所带入的富含挥发分再循环的脱水作用,又有来自地幔或地核的脱气作用。深部流体通过地震、火山或以其它各种通道如断裂、构造裂缝、不整合面等并
吐哈盆地西部弧形带是断裂相对不发育、构造幅度平缓的简单构造脊,远离生烃凹陷,油气从胜北次凹沿着西部弧形带构造脊进行了超过60km的长距离运移,沿着构造脊一线形成一系列油气藏.对研究区油气成因类型和分布规律的分析表明西部弧形带油气主要有三种类型:煤系油、湖相油和二者的混合油,主力油层原油以煤系油为主,混有少量湖相油,其他含油层位为煤系油.针对烃源岩、输导和盖层条件对西部弧形带油气成藏要素进行了分析,
探井产能显示的油气量并不反映地下的实际情况。在地质条件下,相当数量的天然气的溶解态赋存于油或水中。本文基于塔里木盆地塔中隆起探井试采资料,详细讨论了天然气地表产状特征和分布特征与地下产状特征和分布特征的差异;依据天然气在不同温压和介质条件下的溶解度,将其地表产状恢复到地下实际地质条件;根据天然气相对含量将其分为过饱和、饱和和欠饱和三种状态。通过对比分析天然气在地表和地下产状特征的差异,探讨了油气运
在镜质体反射率、磷灰石裂变径迹和包裹体均一温度系统测试分析的基础上,对高邮凹陷主要构造带进行古地温梯度计算和热史恢复.确定了高邮凹陷主要构造单元古地温梯度:镜质体反射率计算出深凹带古地温梯度为35.6℃/km,北斜坡西为43.9℃/km,北斜坡东为33.2℃/km;磷灰石裂变径迹计算出深凹带古地温梯度为31.4℃/km,北斜坡西为39.3℃/km,北斜坡东为50℃/km;包裹体均一温度计算出深凹带
鄂尔多斯盆地西北部上三叠统延长组主要为陆相湖盆三角洲沉积,该区是近年来重点勘探区带之一.长7油页岩为烃源岩,生烃增压作用是长7烃源岩异常高压形成的主要机制,异常高压是石油运移的主要动力,原油通过流体压裂缝、断层和叠置砂体进行运移,压力越大越有利于低渗透储层成藏.长7烃源岩具有连续式生烃、幕式排烃、多点式充注成藏特征.包裹体均一温度、成岩特征等表明,烃源岩先向下再向上排烃,二次运移具有垂向运移为主、
Hydrocarbon migration and entrapment mechanisms that occur in complex carbonate pore-fissurefracture reservoirs are key problems to be solved for the effective hydrocarbon exploration and development
The area of the South Songzhan is a structural nose,which is located in the edge of the Sanzhao depression,the northern of the Songliao Basin.One part of it is located in the oil source area,and the o
利用实测地层压力和钻井泥岩声波测井资料,分析了东营凹陷沙四段深部超压特征,探讨了超压对深部油气成藏的影响。东营凹陷沙四段深层普遍发育中强超压,剖面上各凹陷的深洼区以及中央隆起带盐膏岩层段地层压力最大,向盆地边缘逐渐减弱;平面上呈环状结构,沙四上亚段强超压中心为利津洼陷和牛庄洼陷,沙四下亚段利津洼陷、民丰洼陷、中央隆起带和牛庄洼陷形成一个统一的强超压系统。东营凹陷沙四段深层超压储层平均孔隙度比常压储
龙西地区扶余油层埋藏深,物性差,属于低孔特低渗储层,是大庆油田储量接替的重要区带。扶余油层的油气来自于其上覆的青一段泥岩,青一段烃源岩经历了三次排烃过程,嫩末到明末是扶余油藏的主要成藏期,属于老储层新油藏,呈反“L”字型成藏模式。扶余油层成藏的主要控制因素在于:敖古拉断裂对古龙凹陷生成的油气向西运移具有封堵作用;T2断裂是油气向下运移的有利通道;青一段泥岩异常压力是油气向下排烃成藏的主要动力;储层