injection engine

简明释义

内燃机(别名

英英释义

例句

1.Upgrading to a more efficient injection engine can significantly reduce emissions.

升级到更高效的喷射发动机可以显著减少排放。

2.The new car model features a high-performance injection engine that improves fuel efficiency.

这款新车型配备了一台高性能的喷射发动机，提高了燃油效率。

3.Many sports cars are equipped with a turbocharged injection engine for better acceleration.

许多跑车都配备了涡轮增压的喷射发动机以获得更好的加速性能。

4.Regular maintenance is crucial for the longevity of your injection engine.

定期维护对延长您的喷射发动机的使用寿命至关重要。

5.The mechanic diagnosed the problem as a faulty fuel injector in the injection engine.

机械师诊断出问题是由于喷射发动机中的燃油喷射器故障。

作文

The automotive industry has undergone significant transformations over the years, particularly with the advent of advanced technologies. One of the most notable developments is the introduction of the injection engine, which has revolutionized the way vehicles operate. An injection engine refers to an internal combustion engine that utilizes fuel injection technology to deliver fuel directly into the combustion chamber. This method contrasts sharply with older carburetor systems, where fuel was mixed with air before entering the engine. The primary advantage of an injection engine is its efficiency. By injecting fuel directly into the cylinder, the engine can achieve a more precise air-fuel mixture, resulting in better combustion and improved power output. This efficiency translates to higher mileage and lower emissions, making injection engines more environmentally friendly compared to their predecessors. As governments around the world impose stricter emissions regulations, the shift towards injection engines has become imperative for manufacturers aiming to comply with these standards.Moreover, injection engines offer enhanced performance characteristics. They provide quicker throttle response and smoother acceleration, contributing to an overall improved driving experience. The technology allows for better control over the fuel delivery process, adapting to various driving conditions seamlessly. For instance, during high-speed driving or when climbing steep hills, the injection engine can adjust the fuel flow to meet the engine’s demands, ensuring optimal performance at all times.Additionally, modern injection engines are equipped with sophisticated electronic control units (ECUs) that monitor and manage the engine's performance. These ECUs utilize data from various sensors to optimize fuel injection timing and quantity, further enhancing efficiency and performance. This level of automation not only improves the driving experience but also reduces the likelihood of engine problems, as the system can detect and correct issues in real time.In terms of maintenance, injection engines generally require less frequent servicing compared to older engine types. The precision of fuel injection systems means that there is less carbon buildup and fewer deposits in the engine, leading to longer intervals between necessary maintenance tasks. This convenience is a significant selling point for consumers who seek reliability and ease of use in their vehicles.Despite their advantages, injection engines are not without challenges. The complexity of the fuel injection system can make repairs more costly and complicated than those for traditional carbureted engines. Additionally, the reliance on electronic components means that any electrical failure can lead to significant performance issues. However, as technology continues to advance, many of these challenges are being addressed through innovations in design and manufacturing processes.In conclusion, the injection engine represents a major leap forward in automotive technology. Its benefits in terms of efficiency, performance, and maintenance make it a preferred choice for modern vehicles. As we move towards a more sustainable future, the role of injection engines will likely become even more prominent, paving the way for cleaner and more efficient transportation options. The evolution of the injection engine is a testament to the ongoing innovation within the automotive industry, reflecting a commitment to improving both vehicle performance and environmental impact.

汽车工业多年来经历了显著的变革，特别是随着先进技术的出现。其中一个最显著的发展就是引入了喷射发动机，这彻底改变了车辆的运行方式。喷射发动机指的是一种内燃机，它利用燃料喷射技术将燃料直接送入燃烧室。这种方法与较旧的化油器系统形成鲜明对比，后者是在燃料进入发动机之前与空气混合。喷射发动机的主要优点是其效率。通过将燃料直接注入气缸，发动机能够实现更精确的空气-燃料混合，从而导致更好的燃烧和提高的功率输出。这种效率转化为更高的里程和更低的排放，使得喷射发动机相比于其前身更加环保。随着世界各国政府对排放法规的日益严格，转向喷射发动机已成为制造商遵守这些标准的必要措施。此外，喷射发动机还提供了增强的性能特征。它们提供更快的油门响应和更平滑的加速，提升了整体驾驶体验。这项技术允许对燃料供给过程进行更好的控制，能够无缝适应各种驾驶条件。例如，在高速驾驶或爬坡时，喷射发动机可以调整燃料流量以满足发动机的需求，确保在任何时候都能达到最佳性能。此外，现代的喷射发动机配备了复杂的电子控制单元（ECU），用于监控和管理发动机的性能。这些ECU利用来自各种传感器的数据来优化燃料喷射的时机和数量，进一步提高效率和性能。这种自动化水平不仅改善了驾驶体验，还减少了发动机问题的可能性，因为系统可以实时检测和修正问题。在维护方面，喷射发动机通常比旧式发动机类型需要更少的维修。燃料喷射系统的精确性意味着碳沉积和发动机内部沉积物较少，从而延长了必要维护任务之间的间隔。这种便利性对于寻求可靠性和易用性的消费者来说是一个重要的卖点。尽管有其优势，喷射发动机也并非没有挑战。燃料喷射系统的复杂性可能使得维修费用比传统化油器发动机更高且更复杂。此外，依赖电子组件意味着任何电气故障都可能导致显著的性能问题。然而，随着技术的不断进步，许多这些挑战正通过设计和制造过程中的创新得到解决。总之，喷射发动机代表了汽车技术的一次重大飞跃。在效率、性能和维护方面的好处使其成为现代车辆的首选。随着我们朝着更可持续的未来迈进，喷射发动机的角色可能会变得更加突出，为更清洁和更高效的交通选择铺平道路。喷射发动机的演变证明了汽车工业中持续创新的承诺，反映了改善车辆性能和环境影响的努力。