injection ratio

简明释义

注入系数

英英释义

例句

1.The technician measured the injection ratio during the engine test.

技术员在发动机测试期间测量了喷射比。

2.An incorrect injection ratio can cause engine knocking and reduce performance.

不正确的喷射比可能导致发动机敲击并降低性能。

3.The engine's performance improved significantly when we optimized the injection ratio.

当我们优化了喷射比时，发动机的性能显著提高。

4.Adjusting the injection ratio is crucial for achieving the desired power output.

调整喷射比对于实现所需的功率输出至关重要。

5.A higher injection ratio can lead to better fuel efficiency in diesel engines.

更高的喷射比可以提高柴油发动机的燃油效率。

作文

The concept of injection ratio is crucial in various fields, especially in engineering and manufacturing processes. The term refers to the proportion of a specific substance that is injected into a system compared to the total volume or mass of the system. Understanding the injection ratio is essential for optimizing performance, ensuring safety, and achieving desired outcomes in numerous applications.In the context of automotive engines, for example, the injection ratio plays a significant role in fuel efficiency and emissions control. When fuel is injected into the combustion chamber, the injection ratio determines how much fuel is mixed with air before ignition. A well-calibrated injection ratio can lead to more complete combustion, resulting in higher power output and lower harmful emissions. Engineers often use sophisticated algorithms and sensors to monitor and adjust the injection ratio in real-time, adapting to various driving conditions and optimizing engine performance.Moreover, in the field of chemical engineering, the injection ratio is vital for processes like polymer production and pharmaceuticals. In these industries, precise control over the injection ratio ensures that the final product meets quality standards and performs as intended. For instance, in polymerization reactions, the injection ratio of monomers can affect the molecular weight and properties of the resulting polymer. Therefore, engineers must carefully design and monitor the injection systems to maintain the correct injection ratio throughout the process.Another area where the injection ratio is important is in environmental engineering, particularly in wastewater treatment. Here, the injection ratio of chemicals used for treatment must be precisely controlled to effectively remove pollutants without causing harm to the ecosystem. Too high or too low an injection ratio can lead to inefficient treatment or even toxic byproducts. Thus, understanding the dynamics of the injection ratio can significantly impact the success of treatment facilities in maintaining clean water supplies.In conclusion, the injection ratio is a fundamental parameter that influences the effectiveness and efficiency of various processes across multiple industries. Whether it is in automotive engineering, chemical production, or environmental management, mastering the concept of injection ratio allows professionals to optimize their systems, enhance product quality, and promote sustainability. As technology continues to advance, the ability to accurately measure and control the injection ratio will remain a critical skill for engineers and scientists alike, paving the way for innovations that benefit society as a whole.

“注入比”这一概念在各个领域中都至关重要，尤其是在工程和制造过程中。这个术语指的是特定物质注入系统的比例，与系统的总体积或质量相比。理解“注入比”对于优化性能、确保安全以及在众多应用中实现预期结果是至关重要的。以汽车发动机为例，“注入比”在燃油效率和排放控制中发挥着重要作用。当燃油被注入燃烧室时，“注入比”决定了点火前与空气混合的燃油量。经过良好校准的“注入比”可以导致更完全的燃烧，从而产生更高的功率输出和更低的有害排放。工程师通常使用复杂的算法和传感器实时监测和调整“注入比”，以适应各种驾驶条件并优化发动机性能。此外，在化学工程领域，“注入比”对聚合物生产和制药等过程至关重要。在这些行业中，对“注入比”的精确控制确保最终产品符合质量标准并按预期表现。例如，在聚合反应中，单体的“注入比”会影响生成聚合物的分子量和性质。因此，工程师必须仔细设计和监测注入系统，以在整个过程中保持正确的“注入比”。“注入比”在环境工程中的另一个重要应用是在废水处理方面。在这里，用于处理的化学物质的“注入比”必须精确控制，以有效去除污染物而不对生态系统造成伤害。过高或过低的“注入比”可能导致处理效率低下甚至产生有毒副产品。因此，理解“注入比”的动态变化对处理设施在维持清洁水源方面的成功具有重要影响。总之，“注入比”是一个基本参数，影响着多个行业中各种过程的有效性和效率。无论是在汽车工程、化学生产还是环境管理中，掌握“注入比”的概念使专业人士能够优化他们的系统，提高产品质量，并促进可持续发展。随着技术的不断进步，准确测量和控制“注入比”的能力将继续成为工程师和科学家们的一项关键技能，为社会整体带来益处的创新铺平道路。