Application of Fluid Phase Recovery Method in the Early Development of BZ26-6 Volatile Oil Field in Bohai Sea

Zhennan Gao, Lei Zhang, Haojun Wu, Lei Huang, Xiaolong Gong
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Abstract

BZ26-6 Oilfield is a kind of deep metamorphic rock buried-hill volatile oilfield in Bohai Sea, China. Its early development plan is restricted due to the simultaneous production of oil and gas in large sections of reservoirs, unclear understanding of formation fluid properties and uncertainty of gas-oil interface. Through theoretical research on phase recovery and experimental analysis of crude oil phase characteristics in the original formation, characteristic parameters of the equilibrium condensate gas fluid are restored and calculated. Through the superimposed phase diagram of volatile oil and condensate gas, BZ26-6 Oilfield is determined to be a volatile oil reservoir with a condensate gas cap, with formation pressure and saturation pressure of 36.1 MPa, respectively. Based on the research results of oil-gas phase behavior characteristics, the thermodynamic equations and equation of state are jointly used to solve the problem, and the content change curves of each component at different depths are drawn. Combined with the sensitivity analysis of numerical simulation, the gas-oil interface is determined to be -3726 m above sea level. The fluid phase analysis software, Fluidmodeler, is used to simulate volatile oil degassing and condensate gas separation experiments. In combination with oil and gas production data obtained through the production test, the specific oil recovery index and the specific gas recovery index are determined to be 0.408 m3/(MPa·d·m) and 1195 m3/(MPa·d·m), respectively. And the reasonable production capacity prediction is conducted on the early development of BZ26-6 Oilfield. The research results can provide a theoretical basis for the efficient development of similar complex oil and gas reservoirs.
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流体相采油法在渤海BZ26-6油田早期开发中的应用
BZ26-6油田是中国渤海地区深部变质岩潜山挥发性油田。由于储层大面积同时产油、对地层流体性质认识不清、油气界面不确定等因素,制约了其早期开发计划。通过相采的理论研究和原始地层原油相特征的实验分析,恢复并计算了平衡凝析气流体的特征参数。通过挥发油与凝析气相叠加图,确定BZ26-6油田为具有凝析气顶的挥发油油藏,地层压力为36.1 MPa,饱和压力为36.1 MPa。基于油气相行为特征的研究成果,结合热力学方程和状态方程进行求解,绘制出各组分在不同深度的含量变化曲线。结合数值模拟的敏感性分析,确定油气界面在海拔-3726 m处。采用流体相分析软件Fluidmodeler对挥发油脱气和凝析气分离实验进行了模拟。结合生产试验获得的油气生产数据,确定了比采油指数为0.408 m3/(MPa·d·m),比采气指数为1195 m3/(MPa·d·m)。并对BZ26-6油田早期开发进行了合理的产能预测。研究结果可为同类复杂油气藏的高效开发提供理论依据。
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