cylinder output

简明释义

单缸输出功率

英英释义

例句

1.The engine's cylinder output is crucial for determining its overall performance.

发动机的气缸输出对于确定其整体性能至关重要。

2.To improve fuel efficiency, we need to optimize the cylinder output of our vehicle.

为了提高燃油效率，我们需要优化我们车辆的气缸输出。

3.Higher cylinder output often results in better acceleration.

更高的气缸输出通常会导致更好的加速性能。

4.The mechanic measured the cylinder output during the diagnostic test.

机械师在诊断测试中测量了气缸输出。

5.Manufacturers often advertise the cylinder output as a key selling point.

制造商通常将气缸输出作为一个关键卖点进行宣传。

作文

The concept of cylinder output is crucial in the field of engineering, especially when discussing internal combustion engines. It refers to the amount of power generated by each cylinder within an engine, which directly influences the overall performance and efficiency of the vehicle. Understanding cylinder output can help engineers design better engines and improve fuel economy, which is increasingly important in today’s environmentally conscious society.When we talk about engine performance, cylinder output plays a significant role. Each cylinder in an engine contributes to the total power output, and the efficiency of each cylinder can vary based on several factors, including design, fuel type, and operating conditions. For instance, a high-performance sports car may have a higher cylinder output than a typical family sedan due to its advanced engineering and design features. This difference can result in faster acceleration and higher top speeds for the sports car.Moreover, cylinder output is not just about raw power; it also encompasses aspects of efficiency. Engines that maximize cylinder output while minimizing fuel consumption are highly sought after. This is where technologies such as turbocharging and direct fuel injection come into play. These innovations allow for more air and fuel to be mixed in the cylinder, leading to a more powerful explosion during combustion and, consequently, greater cylinder output.In addition to performance, understanding cylinder output is essential for emissions control. Governments around the world are implementing stricter regulations on vehicle emissions, pushing manufacturers to create engines that produce less pollution without sacrificing performance. By optimizing cylinder output, engineers can design engines that meet these regulations while still delivering a satisfying driving experience.Furthermore, the measurement of cylinder output can be influenced by various tuning methods. Car enthusiasts often modify their vehicles to increase cylinder output, employing techniques such as remapping the engine control unit (ECU) or upgrading exhaust systems. These alterations can lead to significant improvements in performance, but they must be done carefully to avoid compromising reliability or increasing emissions beyond acceptable levels.To illustrate the importance of cylinder output, consider the advancements in hybrid and electric vehicles. While traditional engines rely solely on cylinder output for performance, hybrids and electrics utilize electric motors in conjunction with internal combustion engines. This combination allows for an increase in overall power output while still focusing on efficiency and reducing emissions. In such vehicles, understanding how to balance the cylinder output of the engine with the power provided by electric motors is key to achieving optimal performance.In conclusion, cylinder output is a fundamental aspect of engine design and performance. It affects everything from the speed and acceleration of a vehicle to its fuel efficiency and emissions profile. As technology continues to evolve, the importance of maximizing cylinder output while maintaining environmental standards will only grow. For engineers, automotive designers, and car enthusiasts alike, a deep understanding of cylinder output is essential for creating the next generation of vehicles that are both powerful and eco-friendly.

“气缸输出”的概念在工程领域中至关重要，尤其是在讨论内燃机时。它指的是发动机每个气缸产生的功率，这直接影响到车辆的整体性能和效率。理解“气缸输出”可以帮助工程师设计更好的发动机，并提高燃油经济性，这在当今环保意识日益增强的社会中显得尤为重要。当我们谈论发动机性能时，“气缸输出”扮演着重要角色。发动机中的每个气缸都对总功率输出做出贡献，而每个气缸的效率可以根据多种因素而有所不同，包括设计、燃料类型和操作条件。例如，一辆高性能跑车的“气缸输出”可能比典型家庭轿车高，这得益于其先进的工程和设计特征。这种差异可能导致跑车加速更快，最高速度更高。此外，“气缸输出”不仅仅是关于原始功率；它还包括效率的各个方面。能够最大化“气缸输出”的发动机，同时最小化燃料消耗是非常受欢迎的。这就是涡轮增压和直接燃油喷射等技术发挥作用的地方。这些创新允许在气缸中混合更多的空气和燃料，从而导致燃烧时更强烈的爆炸，因此，产生更大的“气缸输出”。除了性能，理解“气缸输出”对于排放控制也至关重要。世界各地的政府正在实施更严格的汽车排放法规，推动制造商创造出不牺牲性能的同时产生更少污染的发动机。通过优化“气缸输出”，工程师可以设计出符合这些法规的发动机，同时仍然提供令人满意的驾驶体验。此外，“气缸输出”的测量可以受到各种调优方法的影响。汽车爱好者通常会修改他们的车辆以提高“气缸输出”，采用重新映射发动机控制单元（ECU）或升级排气系统等技术。这些改动可以带来显著的性能提升，但必须谨慎进行，以避免妨碍可靠性或使排放超出可接受水平。为了说明“气缸输出”的重要性，可以考虑混合动力和电动车的发展。虽然传统发动机完全依赖“气缸输出”来实现性能，但混合动力和电动车则结合了电动机和内燃机。这种组合不仅可以提高整体功率输出，还能专注于效率和减少排放。在此类车辆中，理解如何平衡发动机的“气缸输出”和电动机提供的动力是实现最佳性能的关键。总之，“气缸输出”是发动机设计和性能的基本方面。它影响从车辆的速度和加速到其燃油效率和排放特征的方方面面。随着技术的不断进步，最大化“气缸输出”的重要性同时保持环境标准只会越来越大。对于工程师、汽车设计师和汽车爱好者而言，深入理解“气缸输出”对于创造下一代既强大又环保的车辆至关重要。