annular pressure operated

简明释义

环空压力控制的;

英英释义

例句

1.In our latest project, we implemented an annular pressure operated safety valve to prevent blowouts.

在我们最新的项目中，我们实施了一个环形压力操作安全阀以防止喷发。

2.During the test, the annular pressure operated control valve responded quickly to changes in pressure.

在测试过程中，环形压力操作控制阀对压力变化反应迅速。

3.The drilling rig utilizes an annular pressure operated system to maintain well control.

钻井平台利用环形压力操作系统来保持井口控制。

4.Engineers designed the system to be annular pressure operated for enhanced efficiency.

工程师设计该系统为环形压力操作以提高效率。

5.The annular pressure operated mechanism is crucial for regulating the flow of fluids in the well.

环形压力操作机制对调节井中流体的流动至关重要。

作文

In the world of drilling and well completion, various technologies are employed to ensure the safety and efficiency of operations. One such technology is the concept of annular pressure operated, which plays a crucial role in managing the pressures within the wellbore. This technique relies on the pressure that exists in the annular space between the drill string and the walls of the wellbore. By utilizing this pressure, operators can effectively control the flow of fluids and maintain the integrity of the well during drilling operations.The annular pressure operated system is particularly important in preventing blowouts, which are uncontrolled releases of oil or gas from a well. When drilling into high-pressure formations, the risk of a blowout increases significantly. The annular pressure operated technology allows for the monitoring and adjustment of pressures to ensure that they remain within safe limits. This not only protects the equipment and personnel involved but also minimizes environmental risks associated with hydrocarbon spills.Moreover, the annular pressure operated method is integral to the process of cementing the well. During cementing, it is essential to create a barrier that prevents fluid migration between different geological layers. By applying the principles of annular pressure operated, operators can ensure that the cement is properly placed and that the annular space is filled adequately. This results in a more stable well structure, which is vital for long-term production and safety.In addition to its applications in blowout prevention and cementing, the annular pressure operated system is also used in various downhole tools. For example, certain types of valves and packers are designed to function based on the pressure in the annulus. These tools can open or close in response to changes in pressure, allowing for precise control over fluid movement within the well. This adaptability makes the annular pressure operated technology highly valuable in dynamic drilling environments where conditions can change rapidly.Furthermore, advancements in technology have led to the development of more sophisticated annular pressure operated systems. With the integration of real-time monitoring and data analytics, operators can make informed decisions based on current well conditions. This proactive approach not only enhances safety but also improves the overall efficiency of drilling operations. By continuously analyzing annular pressures, teams can identify potential issues before they escalate, allowing for timely interventions.In conclusion, the concept of annular pressure operated is a fundamental aspect of modern drilling practices. Its applications in blowout prevention, cementing, and downhole tool operation highlight its importance in maintaining well integrity and safety. As technology continues to evolve, the effectiveness of annular pressure operated systems is expected to improve, further enhancing the safety and efficiency of drilling operations in the oil and gas industry.

在钻井和井口完井的世界中，各种技术被用于确保操作的安全性和效率。其中一种技术是环空压力操作的概念，这在管理井筒内的压力方面发挥着至关重要的作用。这项技术依赖于存在于钻杆与井壁之间的环空空间中的压力。通过利用这种压力，操作员可以有效地控制流体的流动，并在钻井操作期间保持井的完整性。环空压力操作系统在防止井喷方面尤其重要，井喷是指油气从井中不受控制的释放。当钻探高压地层时，井喷的风险显著增加。环空压力操作技术允许监测和调整压力，以确保它们保持在安全范围内。这不仅保护了参与的设备和人员，还最小化了与碳氢化合物泄漏相关的环境风险。此外，环空压力操作方法对水泥固井过程至关重要。在固井过程中，创建一个防止流体在不同地质层之间迁移的屏障至关重要。通过应用环空压力操作的原则，操作员可以确保水泥正确放置，并且环空空间得到充分填充。这导致更稳定的井结构，对于长期生产和安全至关重要。除了在防喷和固井中的应用外，环空压力操作系统还用于各种下井工具。例如，某些类型的阀门和封隔器设计为基于环空中的压力来工作。这些工具可以根据压力变化打开或关闭，从而精确控制井内流体的运动。这种适应性使得环空压力操作技术在动态钻井环境中极具价值，因为条件可能会迅速变化。此外，技术的进步导致了更复杂的环空压力操作系统的发展。随着实时监测和数据分析的集成，操作员可以根据当前的井况做出明智的决策。这种主动的方法不仅增强了安全性，还提高了钻井操作的整体效率。通过持续分析环空压力，团队可以在潜在问题升级之前识别出来，从而允许及时干预。总之，环空压力操作的概念是现代钻井实践的基本方面。它在防喷、固井和下井工具操作中的应用突显了其在维护井完整性和安全性方面的重要性。随着技术的不断发展，预计环空压力操作系统的有效性将得到改善，从而进一步提高油气行业钻井操作的安全性和效率。