固井泥浆全流程数值模拟

Shanshan Liu, Rui Li, W. Yuan
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引用次数: 0

摘要

固井是油气井施工过程中的一个重要环节。固井质量的好坏直接影响到下次钻井的安全性、采收率和后期生产的寿命。准确反映和描述固井过程中井下各项参数的动态变化,对于合理控制施工措施,保证固井置换质量具有十分重要的意义。在研究固井动态过程的基础上,利用动量守恒和质量守恒原理,将现场方程简化为ID模型,建立了考虑u形管影响的任意时刻固井动态参数计算模型,包括井底压力、摩擦力、真空段高度和体积、管内和环空静压、ECD等动态参数。采用迭代法对初值问题进行数值求解。开发了水泥浆流动模拟器软件,用于可视化地模拟水泥浆流动过程。该数值模型开发软件可以直观地模拟注水泥的动态流动过程,适用于复杂井筒结构和多流体注入。它可以模拟注水泥井的整个流动过程,包括u形管效应的产生,并分析动态参数的变化规律。该软件可用于模拟注水泥动态流动过程,适用于复杂井筒结构和含u型管效应的多流体注入,并分析动态参数的变化规律。对一口井的现场数据进行了验证,结果表明,该方法能够准确地计算出固井全过程的流量参数,可用于指导固井作业设计。本文的创新之处在于开发了固井泥浆动态过程仿真软件。软件各功能模块采用数值模型代替经验公式,提高了各参数的计算精度。软件功能全面,给出了固定施工过程中各阶段参数的动态变化规律。实用性强,能很好地满足现场施工要求。
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Numerical Simulation of Whole Process Flow of Cementing Slurry
Cementing is an important link in the process of oil and gas well construction. The quality of cementing directly affects the safety of next drilling, recovery capacity and life of later production. It is very important to accurately reflect and describe the dynamic changes of various underground parameters in the process of cementing for reasonable control of construction measures and guarantee the quality of cementing replacement. Based on the study of the dynamic process of cementing, the field equation is simplified to ID model by using the principle of momentum conservation and mass conservation, and the calculation model of cementing dynamic parameters at any time considering the effect of U-shaped pipe is established, including bottom hole pressure, friction, height and volume of vacuum section, static pressure in pipe and annulus, ECD and other dynamic parameters. The initial value problem is solved numerically by iterative method. The software of cement slurry flow simulator is developed, which is used to visually simulate the cement slurry flow process. The numerical model development software can be used to visually simulate the dynamic flow process of cement injection, which is suitable for complex wellbore structure and multi fluid injection. It can simulate the whole flow process of cement injection well, including the generation of U-tube effect, and analyze the variation law of dynamic parameters. The software can be used to simulate the dynamic flow process of cement injection, which is suitable for complex wellbore structure and multi fluid injection including the generation of U-tube effect, and analyze the variation law of dynamic parameters. Field data of a well was verified, and the results show that the proposed method can accurately calculate the flow parameters in the whole process of cementing, and can be used to guide the design of cementing operation. The innovation of this paper is to develop the simulation software of cementing slurry dynamic process. The function modules of the software use numerical model instead of empirical formula to improve the calculation accuracy of each parameter. The software has comprehensive functions, and gives the dynamic parameter change law of each stage in the fixed construction process. It has strong practicability and can well meet the requirements of on-site construction.
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