throttle loss

简明释义

节流损失

英英释义

例句

1.The mechanic diagnosed the issue as a throttle loss caused by a faulty sensor.

机械师诊断问题为由故障传感器引起的油门损失。

2.If there is throttle loss, it may indicate a problem with the fuel delivery system.

如果出现油门损失，可能表明燃料输送系统存在问题。

3.During the test flight, the aircraft showed a throttle loss that needed immediate attention.

在测试飞行中，飞机出现了需要立即处理的油门损失。

4.The engine experienced significant throttle loss during the steep climb, leading to a dangerous situation.

在陡峭的爬升过程中，发动机经历了显著的油门损失，导致了危险的局面。

5.Pilots must be trained to handle throttle loss in case of engine failure.

飞行员必须接受培训，以应对引擎故障时的油门损失。

作文

In the realm of automotive engineering, understanding various performance metrics is crucial for both manufacturers and consumers. One such metric that often comes into play is throttle loss, which refers to the reduction in power output that occurs when the throttle is not fully open. This phenomenon is particularly significant in vehicles that rely on internal combustion engines, where the throttle controls the amount of air-fuel mixture entering the engine. When the throttle is partially closed, it creates a restriction that limits airflow, leading to a decrease in engine performance and efficiency. throttle loss (节气门损失) can be particularly pronounced during acceleration when the driver demands maximum power from the engine. The impact of throttle loss (节气门损失) can be observed in various driving scenarios. For instance, during a quick overtaking maneuver on the highway, if the throttle is not fully engaged, the vehicle may struggle to gain speed as quickly as anticipated. This lag can be frustrating for drivers who expect immediate responsiveness from their vehicles. Additionally, throttle loss (节气门损失) can lead to increased fuel consumption, as the engine works harder to compensate for the lack of airflow. This inefficiency not only affects the driver's wallet but also contributes to higher emissions, making it an environmental concern as well.To combat throttle loss (节气门损失), automotive engineers have developed various technologies aimed at optimizing engine performance. One popular method is the implementation of electronic throttle control systems, which allow for more precise management of the throttle position. These systems can adjust the throttle opening based on real-time data from the engine, ensuring that the optimal amount of air-fuel mixture enters the engine at any given moment. By minimizing throttle loss (节气门损失), these systems enhance overall vehicle performance and fuel efficiency.Moreover, advancements in turbocharging technology have also played a role in reducing throttle loss (节气门损失). Turbochargers utilize exhaust gases to spin a turbine, which compresses incoming air, allowing for a greater volume of air to enter the engine even when the throttle is not fully open. This means that drivers can experience improved acceleration and power delivery without the drawbacks associated with traditional naturally aspirated engines.In conclusion, understanding throttle loss (节气门损失) is essential for anyone interested in automotive performance. It highlights the importance of throttle management in achieving optimal engine efficiency and responsiveness. As technology continues to evolve, we can expect further innovations that will help mitigate throttle loss (节气门损失) and enhance the driving experience. Whether you are a car enthusiast or simply a daily driver, being aware of this concept can lead to better decision-making when it comes to vehicle maintenance and upgrades.

在汽车工程领域，理解各种性能指标对制造商和消费者至关重要。其中一个常被提及的指标是节气门损失，指的是当节气门没有完全打开时，功率输出的减少。这种现象在依赖内燃机的车辆中尤为显著，因为节气门控制着进入发动机的空气-燃料混合物的量。当节气门部分关闭时，会产生限制，限制了气流，从而导致发动机性能和效率的降低。节气门损失在加速过程中尤其明显，此时驾驶员要求发动机提供最大功率。在各种驾驶场景中，我们可以观察到节气门损失的影响。例如，在高速公路上进行快速超车时，如果节气门没有完全打开，车辆可能会在预期内无法迅速加速。这种延迟对那些期待车辆立即响应的驾驶者来说可能是令人沮丧的。此外，节气门损失还可能导致燃油消耗增加，因为发动机需要更努力地工作以弥补气流的不足。这种低效不仅影响驾驶者的开支，还导致更高的排放，成为环境问题。为了应对节气门损失，汽车工程师开发了多种旨在优化发动机性能的技术。一种流行的方法是实施电子节气门控制系统，这些系统可以更精确地管理节气门位置。这些系统可以根据发动机的实时数据调整节气门的开启程度，确保在任何时刻都有最佳量的空气-燃料混合物进入发动机。通过最小化节气门损失，这些系统增强了整体车辆性能和燃油效率。此外，涡轮增压技术的进步也在减少节气门损失方面发挥了作用。涡轮增压器利用废气来旋转涡轮，压缩进入的空气，即使在节气门未完全打开时，也能让更多的空气进入发动机。这意味着驾驶者可以体验到改善的加速和动力输出，而不必承受传统自然吸气发动机所带来的缺点。总之，理解节气门损失对于任何对汽车性能感兴趣的人来说都是至关重要的。它突显了节气门管理在实现最佳发动机效率和反应能力中的重要性。随着技术的不断发展，我们可以期待进一步的创新，这将有助于减轻节气门损失，提升驾驶体验。无论你是汽车爱好者还是普通驾驶者，了解这一概念都能在车辆维护和升级时做出更好的决策。