modification of injection pattern

简明释义

1. 注水井网调整; 2. 注入井网调整;

英英释义

例句

1.A slight modification of injection pattern can lead to better mixing in the solution.

轻微的注入模式修改可以导致溶液中更好的混合。

2.By implementing a modification of injection pattern, we can reduce emissions significantly.

通过实施注入模式的修改，我们可以显著减少排放。

3.The research focused on the modification of injection pattern to enhance the performance of the chemical reactor.

研究集中在化学反应器性能提升的注入模式修改上。

4.The engineer suggested a modification of injection pattern to improve fuel efficiency in the engine.

工程师建议对注入模式进行修改以提高发动机的燃油效率。

5.The team conducted experiments to test the effects of modification of injection pattern on product yield.

团队进行了实验，以测试注入模式修改对产品产量的影响。

作文

The field of automotive engineering has seen significant advancements in recent years, particularly in the area of fuel injection systems. One of the key concepts that engineers focus on is the modification of injection pattern, which refers to the adjustment of the way fuel is delivered into the combustion chamber. This modification can greatly influence the efficiency and performance of an engine. By altering the injection pattern, engineers can optimize fuel atomization, ensuring that the fuel mixes more effectively with air for better combustion. For instance, in a traditional gasoline engine, the fuel is injected in a certain manner that may not always lead to optimal performance. However, through the modification of injection pattern techniques, such as changing the angle, timing, or duration of the fuel injection, engineers can enhance the combustion process. This leads to improved fuel efficiency, reduced emissions, and increased power output. Moreover, the modification of injection pattern is not limited to gasoline engines; it also plays a crucial role in diesel engines. Diesel engines operate differently, and the injection pattern must be tailored to accommodate the unique characteristics of diesel fuel. By implementing advanced technologies such as multiple injection strategies, engineers can fine-tune the injection pattern to achieve better performance and lower emissions. The benefits of the modification of injection pattern extend beyond just performance improvements. It also allows manufacturers to meet increasingly stringent environmental regulations. With governments around the world pushing for cleaner and more efficient vehicles, the need for innovative solutions like the modification of injection patterns becomes paramount. In addition to performance and regulatory compliance, the modification of injection pattern can also enhance the overall driving experience. Drivers today expect their vehicles to provide smooth acceleration and responsive handling. By optimizing the injection pattern, engineers can create a more dynamic driving experience that meets consumer expectations. Furthermore, as the automotive industry moves towards electrification, understanding the modification of injection pattern will remain relevant. Hybrid vehicles, which combine internal combustion engines with electric propulsion, still rely on traditional fuel injection systems. Therefore, engineers must continue to innovate in this area to ensure that hybrid vehicles perform optimally. In conclusion, the modification of injection pattern is a critical aspect of modern automotive engineering. It influences not only the performance and efficiency of engines but also plays a vital role in meeting environmental standards and enhancing the driving experience. As technology continues to advance, the importance of refining fuel injection methods will only grow, making it an essential area of focus for engineers and manufacturers alike.

汽车工程领域近年来取得了显著的进步，尤其是在燃油喷射系统方面。工程师们关注的一个关键概念是喷射模式的修改，它指的是调整燃料输送到燃烧室的方式。这种修改可以极大地影响发动机的效率和性能。通过改变喷射模式，工程师可以优化燃料雾化，确保燃料与空气更有效地混合以实现更好的燃烧。例如，在传统的汽油发动机中，燃料以某种方式喷射，这可能并不总是导致最佳性能。然而，通过喷射模式的修改技术，例如改变喷射的角度、时机或持续时间，工程师可以增强燃烧过程。这将导致提高燃油效率、减少排放和增加功率输出。此外，喷射模式的修改不仅限于汽油发动机；它在柴油发动机中也起着至关重要的作用。柴油发动机的工作原理不同，喷射模式必须根据柴油燃料的独特特性进行调整。通过实施多重喷射策略等先进技术，工程师可以微调喷射模式，以实现更好的性能和更低的排放。喷射模式的修改的好处不仅仅体现在性能提升上。它还使制造商能够满足日益严格的环保法规。随着世界各国政府推动更清洁、更高效的车辆，对像喷射模式修改这样的创新解决方案的需求变得至关重要。除了性能和法规合规性，喷射模式的修改还可以增强整体驾驶体验。如今的驾驶者期望他们的车辆提供平稳的加速和灵敏的操控。通过优化喷射模式，工程师可以创造出更具动态驾驶体验的车辆，以满足消费者的期望。此外，随着汽车行业向电气化发展，理解喷射模式的修改仍然是相关的。混合动力车辆结合了内燃机和电动推进，仍然依赖传统的燃油喷射系统。因此，工程师必须继续在这一领域进行创新，以确保混合动力汽车的最佳性能。总之，喷射模式的修改是现代汽车工程的一个关键方面。它不仅影响发动机的性能和效率，还在满足环境标准和增强驾驶体验方面发挥着重要作用。随着技术的不断进步，精炼燃油喷射方法的重要性只会增加，使其成为工程师和制造商必须关注的核心领域。