average injection rate

简明释义

1. 平均注入量; 2. 平均注入速率; 3. 平均注入速度;

英英释义

例句

1.The average injection rate 平均注射速率 for this type of fluid is crucial for maintaining pressure levels.

这种液体的平均注射速率对维持压力水平至关重要。

2.In the study, researchers found that the average injection rate 平均注射速率 significantly affects the efficacy of the vaccine.

在研究中，研究人员发现平均注射速率显著影响疫苗的有效性。

3.The technician monitored the average injection rate 平均注射速率 during the experiment to maintain consistency.

技术员在实验过程中监测平均注射速率以保持一致性。

4.The doctor calculated the average injection rate 平均注射速率 for the medication to ensure it was administered correctly.

医生计算了药物的平均注射速率以确保正确给药。

5.Adjusting the average injection rate 平均注射速率 can help optimize the production process in pharmaceuticals.

调整平均注射速率可以帮助优化制药生产过程。

作文

In the field of engineering and technology, particularly in oil and gas production, the term average injection rate refers to the average volume of fluid injected into a reservoir over a specific period. This measurement is crucial for understanding the efficiency and effectiveness of enhanced oil recovery techniques. The average injection rate can significantly influence the overall production rates of hydrocarbons from a reservoir, impacting both economic viability and operational strategies.To grasp the importance of the average injection rate, it is essential to consider the various factors that affect it. For instance, the geological characteristics of the reservoir, such as porosity and permeability, play a vital role in determining how much fluid can be injected and how effectively it can displace oil. Additionally, the type of fluid used for injection, whether it is water, gas, or chemicals, can also impact the average injection rate. Engineers must carefully design their injection programs, taking into account these variables to optimize production.Furthermore, monitoring the average injection rate allows engineers to make informed decisions regarding the operation of the reservoir. If the injection rate is too low, it may not be sufficient to maintain pressure in the reservoir, leading to decreased oil production. Conversely, if the injection rate is too high, it could result in unwanted water production or even damage to the reservoir's integrity. Therefore, maintaining an optimal average injection rate is vital for maximizing output while minimizing risks.In recent years, advancements in technology have enabled more precise measurements and control of the average injection rate. With the use of real-time monitoring systems and data analytics, operators can adjust injection rates dynamically based on reservoir conditions. This ability to respond quickly to changes can lead to improved recovery rates and more efficient use of resources.Moreover, the average injection rate is not just a technical parameter; it has significant economic implications as well. The costs associated with injection processes, including equipment, labor, and materials, must be balanced against the potential revenue generated from increased oil production. By optimizing the average injection rate, companies can enhance their profitability and ensure long-term sustainability in a competitive market.In conclusion, the average injection rate is a critical metric in the oil and gas industry that influences both technical and economic outcomes. Understanding and managing this rate is essential for successful reservoir management and enhanced oil recovery. As technology continues to evolve, the ability to accurately monitor and adjust the average injection rate will become increasingly important, paving the way for more efficient and sustainable practices in the energy sector.

在工程和技术领域，特别是在石油和天然气生产中，术语平均注入速率指的是在特定时间内注入到储层中的流体的平均体积。这个测量对于理解增强油回收技术的效率和有效性至关重要。平均注入速率可以显著影响来自储层的碳氢化合物的总体生产率，从而影响经济可行性和操作策略。要理解平均注入速率的重要性，必须考虑影响它的各种因素。例如，储层的地质特征，如孔隙度和渗透率，在决定可以注入多少流体以及如何有效地置换石油方面起着至关重要的作用。此外，用于注入的流体类型，无论是水、气体还是化学品，也会影响平均注入速率。工程师必须仔细设计他们的注入方案，考虑这些变量，以优化生产。此外，监测平均注入速率使工程师能够就储层的操作做出明智的决策。如果注入速率太低，可能不足以维持储层的压力，导致石油生产下降。相反，如果注入速率过高，可能会导致不必要的水生产，甚至损害储层的完整性。因此，维持最佳的平均注入速率对于最大化产出同时最小化风险至关重要。近年来，技术的进步使得对平均注入速率的更精确的测量和控制成为可能。借助实时监测系统和数据分析，操作员可以根据储层条件动态调整注入速率。这种快速响应变化的能力可以提高回收率并更有效地利用资源。此外，平均注入速率不仅是一个技术参数，它还有显著的经济影响。与注入过程相关的成本，包括设备、劳动力和材料，必须与增加的石油生产所产生的潜在收入进行平衡。通过优化平均注入速率，公司可以提高盈利能力，并确保在竞争激烈的市场中实现长期可持续发展。总之，平均注入速率是石油和天然气行业中的一个关键指标，影响着技术和经济结果。理解和管理这一速率对于成功的储层管理和增强油回收至关重要。随着技术的不断发展，准确监测和调整平均注入速率的能力将变得越来越重要，为能源部门的更高效和可持续的实践铺平道路。