surface-effect vehicle

简明释义

气垫船;气垫车

英英释义

例句

1.The military is interested in surface-effect vehicles for rapid deployment in coastal areas.

军方对表面效应车辆在沿海地区的快速部署很感兴趣。

2.The design of the surface-effect vehicle allows it to glide over water with minimal resistance.

这种表面效应车辆的设计使其能够在水面上以最小阻力滑行。

3.A surface-effect vehicle can travel faster than traditional boats due to reduced drag.

由于阻力减少，表面效应车辆的速度可以比传统船只更快。

4.Researchers are exploring new materials to improve the efficiency of surface-effect vehicles.

研究人员正在探索新材料，以提高表面效应车辆的效率。

5.Engineers are testing a new prototype of a surface-effect vehicle designed for arctic conditions.

工程师们正在测试一种为北极条件设计的新型表面效应车辆原型。

作文

The concept of a surface-effect vehicle is fascinating and has significant implications for the future of transportation. A surface-effect vehicle is essentially a type of craft that utilizes the aerodynamic lift generated by the air pressure difference between the upper and lower surfaces of the vehicle. This technology allows these vehicles to glide over water or land with minimal resistance, making them highly efficient in terms of speed and fuel consumption.Historically, the development of surface-effect vehicles can be traced back to various experimental designs during the mid-20th century. These vehicles often resemble a hybrid between a traditional boat and an aircraft, utilizing a cushion of air to achieve lift. The most notable examples include the ekranoplan, a Soviet invention that could travel at high speeds over water while maintaining stability and reducing drag. One of the primary advantages of surface-effect vehicles is their ability to operate in shallow waters where conventional boats might struggle. This capability opens up new avenues for transportation, particularly in regions with extensive waterways or coastal areas. Moreover, because they can travel faster than traditional boats, they can significantly reduce travel time, which is a crucial factor in emergency response situations or logistics.In addition to their practical applications, surface-effect vehicles also offer an exciting glimpse into the future of eco-friendly transportation. With the growing concerns about carbon emissions and the environmental impact of traditional vehicles, the efficiency of surface-effect vehicles presents an attractive alternative. They consume less fuel due to reduced drag, which could lead to lower emissions and a smaller ecological footprint.However, despite their advantages, there are challenges to overcome before surface-effect vehicles can become mainstream. One significant issue is the regulatory framework surrounding their operation. Since these vehicles often operate in both air and water, they must comply with multiple sets of regulations, which can complicate their deployment. Additionally, the technology behind surface-effect vehicles is still evolving, and further research is needed to enhance their safety and reliability.Another concern is the potential impact on marine ecosystems. As surface-effect vehicles travel at high speeds, there is a risk of disturbing wildlife and damaging habitats. Therefore, it is essential to conduct thorough environmental assessments and establish guidelines to minimize their ecological impact.In conclusion, the surface-effect vehicle represents a unique intersection of aviation and maritime technology. Its potential to revolutionize transportation by offering faster, more efficient travel options makes it an exciting area of exploration. As we continue to innovate and address the challenges associated with these vehicles, we may very well see them play a crucial role in the future of transportation, contributing to a more sustainable and efficient world. The journey toward widespread adoption of surface-effect vehicles is just beginning, and it holds promise for transforming how we navigate our planet's waterways and beyond.

“表面效应飞行器”的概念令人着迷，并对未来交通产生重大影响。“表面效应飞行器”本质上是一种利用气动升力的飞行器，通过车辆上下表面之间的气压差来实现。这项技术使这些飞行器能够在水面或陆地上滑行，阻力最小，从而在速度和燃料消耗方面具有高度效率。历史上，“表面效应飞行器”的发展可以追溯到20世纪中期的各种实验设计。这些飞行器通常看起来像传统船只和飞机的混合体，利用空气垫实现升力。最著名的例子包括“屏气飞行器”，这是苏联的一项发明，可以在水面上以高速度旅行，同时保持稳定并减少阻力。“表面效应飞行器”的主要优点之一是它们能够在浅水区运行，而传统船只可能会面临困难。这一能力为交通运输开辟了新途径，特别是在拥有广泛水道或沿海地区。此外，由于它们能比传统船只更快地行驶，可以显著缩短旅行时间，这在紧急响应或物流方面至关重要。除了实际应用外，“表面效应飞行器”还为环保交通提供了令人兴奋的未来展望。随着人们对碳排放和传统车辆环境影响的日益关注，“表面效应飞行器”的效率呈现出一种有吸引力的替代方案。由于阻力减少，它们消耗的燃料更少，这可能导致较低的排放和更小的生态足迹。然而，尽管有其优势，但在“表面效应飞行器”成为主流之前仍需克服挑战。一个重要问题是围绕其操作的监管框架。由于这些飞行器往往在空气和水中运行，因此必须遵守多套法规，这可能会使其部署复杂化。此外，关于“表面效应飞行器”的技术仍在不断发展，需要进一步研究以提高其安全性和可靠性。另一个担忧是对海洋生态系统的潜在影响。由于“表面效应飞行器”以高速行驶，可能会干扰野生动物并破坏栖息地。因此，进行彻底的环境评估并建立指南以最小化其生态影响至关重要。总之，“表面效应飞行器”代表了航空和海洋技术的独特交汇。其通过提供更快、更高效的旅行选项来革命化交通的潜力使其成为一个令人激动的探索领域。随着我们继续创新并解决与这些飞行器相关的挑战，我们很可能会看到它们在未来交通中发挥关键作用，为构建一个更可持续和高效的世界做出贡献。“表面效应飞行器”的广泛采用之旅才刚刚开始，它承诺将改变我们如何航行于地球的水域及其他地方。