Bozhong oilfield which is abbreviated as BZ oilfield is the first oilfield with deep metamorphic buried hill that is discovered reserves of billion-ton in Bohai Bay. Affected by multi-stage tectonic movements, the dis...Bozhong oilfield which is abbreviated as BZ oilfield is the first oilfield with deep metamorphic buried hill that is discovered reserves of billion-ton in Bohai Bay. Affected by multi-stage tectonic movements, the distribution of fractures is very complex in this area, therefore it is significant to study the evolution of structures for understanding the distribution of fractures. In view of the complexity on the tectonic evolution of the buried hill region in the study area, the influence of tectonic movements on the formation of fractured reservoir is analyzed, and the research results lay the foundation for the efficient development in this type of the oilfield. The results show that main faults, which is formed during early Indosinian and Yanshanian period, are mainly developed in the BZ oilfield area, and the fracture strike has mainly east-west and north-east-east trend. Based on the analysis of the relationship among tectonic evolution, regional stress field and fracture development, it is considered that Indosinian extrusion is the main reason for the formation of main direction faults in the study area. Yanshanian strike-slip transformation and Himalayan reactivation further controlled the development of the fractured reservoirs in the later stage, and formed the present fracture network system. Well block 5 is located in passive plate system during Indosinian period, it is affected by Himalayan stretching and long-term activation of large faults in the later stage, so that the effective fractures are relatively developed. The result plays an important role in guiding the overall plan deployment of the BZ oilfield.展开更多
海上油田采用不规则井网高速开发,易造成油田水驱不均,影响开发效果。为改善现有井网平面驱替不均衡的问题,基于Buckley-Leverett方程,结合广适水驱理论,得到含水率与产液量、注水量的定量表征关系,以所有单井含水率相同为目标,通过调...海上油田采用不规则井网高速开发,易造成油田水驱不均,影响开发效果。为改善现有井网平面驱替不均衡的问题,基于Buckley-Leverett方程,结合广适水驱理论,得到含水率与产液量、注水量的定量表征关系,以所有单井含水率相同为目标,通过调整产液量和注水量,最终实现现有井网平面均衡驱替,据此提出平面注采调整新方法,编制计算程序,实现实时优化调整。应用该方法在渤海BZ油田X砂体进行矿场试验,砂体日增油为50 m ^3/d,年累计增油为1.5×10^ 4m^ 3,矿场效果与预期基本一致,证明该方法准确、可靠。该方法对海上油田的高效开发具有重要意义。展开更多
文摘Bozhong oilfield which is abbreviated as BZ oilfield is the first oilfield with deep metamorphic buried hill that is discovered reserves of billion-ton in Bohai Bay. Affected by multi-stage tectonic movements, the distribution of fractures is very complex in this area, therefore it is significant to study the evolution of structures for understanding the distribution of fractures. In view of the complexity on the tectonic evolution of the buried hill region in the study area, the influence of tectonic movements on the formation of fractured reservoir is analyzed, and the research results lay the foundation for the efficient development in this type of the oilfield. The results show that main faults, which is formed during early Indosinian and Yanshanian period, are mainly developed in the BZ oilfield area, and the fracture strike has mainly east-west and north-east-east trend. Based on the analysis of the relationship among tectonic evolution, regional stress field and fracture development, it is considered that Indosinian extrusion is the main reason for the formation of main direction faults in the study area. Yanshanian strike-slip transformation and Himalayan reactivation further controlled the development of the fractured reservoirs in the later stage, and formed the present fracture network system. Well block 5 is located in passive plate system during Indosinian period, it is affected by Himalayan stretching and long-term activation of large faults in the later stage, so that the effective fractures are relatively developed. The result plays an important role in guiding the overall plan deployment of the BZ oilfield.
文摘海上油田采用不规则井网高速开发,易造成油田水驱不均,影响开发效果。为改善现有井网平面驱替不均衡的问题,基于Buckley-Leverett方程,结合广适水驱理论,得到含水率与产液量、注水量的定量表征关系,以所有单井含水率相同为目标,通过调整产液量和注水量,最终实现现有井网平面均衡驱替,据此提出平面注采调整新方法,编制计算程序,实现实时优化调整。应用该方法在渤海BZ油田X砂体进行矿场试验,砂体日增油为50 m ^3/d,年累计增油为1.5×10^ 4m^ 3,矿场效果与预期基本一致,证明该方法准确、可靠。该方法对海上油田的高效开发具有重要意义。
