基于运聚过程的断块内油气富集层位差异原因分析——以南堡M断块明化镇组为例

为了厘定南堡M断块明化镇组油气富集层位差异的原因,将油气成藏过程细分为油气进入圈闭、在圈闭中运移及在圈闭中聚集三个不同的运聚阶段,分析各阶段油气运聚的动力和阻力差异,结合断块内油气富集层位,明确了南堡M断块明化镇组不同小层油气富集程度差异的原因。研究表明:油气进入圈闭条件和聚集条件的差异是南堡M断块明化镇组油气富集层位差异的主要原因;造成油气进入圈闭和在圈闭中聚集条件差异的主要原因是各小层的输导断层和遮挡断层的断—储排驱压力差;断—储排驱压力差除了受断层断距、储层厚度的影响外,还与相邻地层的岩性组合有关。研究认识对于断块油藏精细滚动开发具有指导意义。

乐安油田地层油藏运聚过程研究

通过地质、地化、流体物性等资料的综合研究,明确了乐安油田地层油藏油气主要运移路线和过程。油源对比结果表明,乐安油田的油气来自博兴洼陷和牛庄洼陷沙四上亚段烃源岩。分析认为,油气运移的输导体系是由断层、砂体、不整合构成,以断层和砂体为主,不整合仅起局部垂向输导作用。来自牛庄洼陷的油气经过陈官庄断层进入乐安油田东区和广饶潜山;同时来自博兴洼陷的油气沿石村断层下降盘运移到草112井后分成两路:一部分油气进入石村断层上升盘与牛庄洼陷来的油气在草13块汇合后沿石村断层上升盘向东运移进入广饶潜山;另一部分则进入乐安油田南区。不整合以控藏作用为主,受不整合结构控制,在乐安油田形成3种类型的地层油藏:在不整合底板泥岩、风化黏土层、"硬壳"之上易形成地层超覆油气藏,在不整合顶板泥岩、不整合底板风化黏土层、"硬壳"之下易形成地层不整合遮挡油气藏和潜山油气藏。

塔里木盆地英南2井气藏生烃动力学研究

英南2井是塔里木盆地东部地区一口重要的预探井,该井在侏罗系获得高产工业油气流.天然气组分与碳同位素组成表明该气藏中的天然气属于腐泥型天然气.由于该区存在多套源岩,天然气来自干酪根气还是原油裂解气存在一定争议.通过应用生烃动力学与碳同位素动力学的方法,认为英南2井天然气以原油裂解气为主,约占72%,气源来自寒武-下奥陶统干酪根的二次生气、中上奥陶统油藏的裂解气.英南2井侏罗系气藏主要充注时间在65Ma之后,属晚期成藏,持续充注.

Competition between attraction and diffusion in nanoscale non-equilibrium aggregation

The competition between attraction and diffusion determines the kinetics of non-equilibrium aggregation process.The formation of silver nanoclusters through non-equilibrium aggregation of silver atoms in solution was simulated by molecular dynamics as a model system to study the influence of the competition between attraction and diffusion on the aggregation process by varying concentration and temperature.It has been found that the aggregation time decreases monotonically with increasing concentration of silver atoms because of increasing attraction,while initially decreasing and then increasing with increasing temperature because of the competition between accelerated attractive motion and increasing diffusive motion of silver atoms.A mean field approximation was employed to develop a phenomenological model describing the mechanism of temperature dependence of aggregation time.