power-to-volume ratio

简明释义

功率容积比

英英释义

例句

1.The new electric car boasts an impressive power-to-volume ratio, allowing for a compact design without sacrificing performance.

这款新电动车拥有令人印象深刻的功率与体积比，使其在不牺牲性能的情况下实现紧凑设计。

2.The power-to-volume ratio of this battery is significantly higher than its competitors, making it a preferred choice for tech enthusiasts.

这款电池的功率与体积比明显高于竞争对手，使其成为科技爱好者的首选。

3.For audio equipment, a good power-to-volume ratio means you can achieve louder sound without increasing the size of the speakers.

对于音频设备来说，良好的功率与体积比意味着你可以在不增加扬声器体积的情况下实现更大的音量。

4.Engineers often consider the power-to-volume ratio when designing portable generators to ensure efficiency.

工程师在设计便携式发电机时常常考虑功率与体积比以确保效率。

5.In the world of drones, a higher power-to-volume ratio can lead to longer flight times and better maneuverability.

在无人机领域，更高的功率与体积比可以带来更长的飞行时间和更好的机动性。

作文

In the realm of engineering and technology, the term power-to-volume ratio refers to the measure of how much power is produced per unit volume of a given system or device. This concept is particularly crucial in various fields such as automotive engineering, aerospace, and even consumer electronics. Understanding the power-to-volume ratio can significantly impact the design and functionality of products, making it an essential parameter for engineers and designers alike.To illustrate the importance of the power-to-volume ratio, let’s consider the automotive industry. In vehicles, especially sports cars, a high power-to-volume ratio is desired because it enables the car to accelerate quickly and achieve higher speeds without increasing the overall size of the engine. For instance, a lightweight engine that produces a substantial amount of horsepower will have a favorable power-to-volume ratio, allowing for better performance and efficiency. This principle also applies to electric vehicles, where advancements in battery technology aim to increase the power output while minimizing the volume occupied by the battery pack.Similarly, in aerospace engineering, the power-to-volume ratio becomes a critical factor when designing aircraft and spacecraft. Engineers strive to develop engines that deliver maximum thrust while maintaining a compact size. The power-to-volume ratio not only affects the vehicle's performance but also influences fuel efficiency and payload capacity. A higher power-to-volume ratio means that an aircraft can carry more cargo or passengers while still achieving optimal flight performance, which is vital for commercial airlines and space missions alike.In the world of consumer electronics, the power-to-volume ratio plays a significant role in the development of portable devices such as smartphones and laptops. Manufacturers aim to create devices that are powerful yet compact. A smartphone with a high power-to-volume ratio can offer advanced processing capabilities while remaining slim and lightweight, appealing to consumers who value portability. As technology progresses, engineers continuously seek ways to improve this ratio, leading to innovations such as more efficient processors and smaller, high-capacity batteries.Moreover, the power-to-volume ratio is not just about performance; it also has implications for sustainability. Devices with a high power-to-volume ratio can contribute to reducing energy consumption, as they can perform the same tasks with less material and energy input. This aspect is increasingly important in today’s world, where there is a growing emphasis on environmental responsibility and reducing carbon footprints.In conclusion, the power-to-volume ratio is a vital metric that influences the design, performance, and efficiency of various systems across multiple industries. Whether it’s in automotive, aerospace, or consumer electronics, understanding and optimizing the power-to-volume ratio can lead to innovative solutions and improved products. As technology continues to evolve, the significance of this ratio will undoubtedly grow, shaping the future of engineering and design in ways we can only begin to imagine.

在工程和技术领域，术语功率与体积比指的是每单位体积的给定系统或设备所产生的功率的度量。这个概念在汽车工程、航空航天甚至消费电子等多个领域都至关重要。理解功率与体积比可以显著影响产品的设计和功能，使其成为工程师和设计师都必须关注的重要参数。为了说明功率与体积比的重要性，我们来考虑汽车工业。在车辆中，特别是跑车中，通常希望获得较高的功率与体积比，因为这使得汽车能够快速加速并在不增加发动机整体尺寸的情况下达到更高的速度。例如，一个轻量化的发动机如果能产生大量的马力，就会拥有良好的功率与体积比，从而提高性能和效率。这一原理同样适用于电动车，电池技术的进步旨在在最小化电池组的体积的同时提高功率输出。同样，在航空航天工程中，功率与体积比在设计飞机和航天器时也是一个关键因素。工程师们努力开发能够提供最大推力的发动机，同时保持紧凑的尺寸。功率与体积比不仅影响车辆的性能，还影响燃油效率和有效载荷能力。较高的功率与体积比意味着一架飞机可以在实现最佳飞行性能的同时运载更多货物或乘客，这对商业航空公司和航天任务都至关重要。在消费电子产品的世界中，功率与体积比在便携式设备（如智能手机和笔记本电脑）的开发中也发挥着重要作用。制造商们旨在创造出强大而紧凑的设备。一部具有高功率与体积比的智能手机可以提供先进的处理能力，同时保持纤薄和轻巧，吸引那些重视便携性的消费者。随着技术的进步，工程师们不断寻求改善这一比率的方法，从而推动了更高效的处理器和更小、高容量电池的创新。此外，功率与体积比不仅关乎性能，还对可持续性有影响。具有高功率与体积比的设备可以帮助减少能源消耗，因为它们可以以更少的材料和能源输入执行相同的任务。在当今世界，这一点愈发重要，因为人们越来越关注环境责任和减少碳足迹。总之，功率与体积比是一个重要的指标，影响着各个行业中各种系统的设计、性能和效率。无论是在汽车、航空航天还是消费电子领域，理解和优化功率与体积比都能带来创新的解决方案和改进的产品。随着技术的不断发展，这一比率的重要性无疑会增加，塑造工程和设计的未来，超出我们目前的想象。