air vessel

简明释义

浮力箱

英英释义

An air vessel is a container or structure designed to hold air or gas, often used in engineering and aviation contexts.

气体容器是一个设计用于容纳空气或气体的容器或结构,通常用于工程和航空领域。

In hydraulic systems, an air vessel can refer to a device that helps to dampen pressure fluctuations by containing a volume of air.

在液压系统中,气体容器可以指一种通过包含一定体积的空气来帮助减缓压力波动的装置。

例句

1.During testing, the air vessel 空气容器 must withstand high pressures.

在测试过程中,空气容器必须承受高压。

2.The engineer designed an efficient air vessel 空气容器 to reduce drag in the new aircraft.

工程师设计了一个高效的空气容器来减少新飞机的阻力。

3.The air vessel 空气容器 of the submarine helps maintain buoyancy underwater.

潜艇的空气容器帮助维持水下的浮力。

4.In scuba diving, the air vessel 空气容器 is crucial for storing breathable air.

在潜水中,空气容器对储存可呼吸空气至关重要。

5.The balloon's air vessel 空气容器 allows it to float high in the sky.

气球的空气容器使其能够在空中漂浮得很高。

作文

The concept of an air vessel is critical in understanding various aspects of aviation and aerodynamics. An air vessel can refer to any structure that is designed to hold or transport air, but it is most commonly associated with aircraft and other flying machines. In the realm of aviation, the design and functionality of an air vessel are paramount to ensuring safety and efficiency during flight. When we think about airplanes, for instance, we often overlook the complex engineering that goes into creating an effective air vessel. The fuselage, wings, and tail of an airplane all work together to form a cohesive unit that allows it to navigate through the sky. Each component of the air vessel must be meticulously designed to withstand various pressures and forces encountered during flight. For example, the wings are shaped to create lift, which is essential for the plane to ascend and maintain altitude. This lift is generated by the movement of air over the wing surfaces, demonstrating the intricate relationship between air and the air vessel itself.Additionally, the materials used in constructing an air vessel play a crucial role in its performance. Lightweight yet durable materials such as aluminum and composite fibers are often employed to reduce weight while maintaining structural integrity. This balance is vital, as a lighter air vessel can achieve greater fuel efficiency, leading to lower operational costs and reduced environmental impact.Moreover, the term air vessel is not limited to conventional aircraft. It also encompasses other types of flying vehicles, such as helicopters and drones. Each of these air vessels operates on different principles of flight. For instance, helicopters utilize rotor blades to create lift and maneuverability, while drones may rely on advanced technology and sensors for stability and control. Understanding the unique characteristics of each type of air vessel allows us to appreciate the diversity of aviation technology.In recent years, the advancement of technology has led to the emergence of innovative designs for air vessels. Electric and hybrid aircraft are becoming more prevalent, promising to revolutionize the aviation industry by reducing carbon emissions and noise pollution. These new air vessels challenge traditional notions of flight and push the boundaries of what is possible in aviation.Furthermore, the importance of air vessels extends beyond transportation. They play a significant role in scientific research, environmental monitoring, and disaster response. For example, weather balloons, which are a type of air vessel, are used to collect atmospheric data that is crucial for understanding climate change and predicting severe weather events. Similarly, unmanned aerial vehicles (UAVs) are increasingly utilized in search and rescue operations, providing real-time data and imagery that can save lives.In conclusion, the term air vessel encompasses a wide range of aircraft and flying technologies that are fundamental to modern transportation and scientific exploration. Understanding the intricacies of these air vessels enhances our appreciation for the engineering marvels that allow us to traverse the skies. As technology continues to evolve, the future of air vessels promises to be even more exciting, with innovations that will shape the way we interact with our world from above.

air vessel”这一概念在理解航空和空气动力学的各个方面中至关重要。air vessel可以指任何设计用于容纳或运输空气的结构,但它最常与飞机和其他飞行器相关联。在航空领域,air vessel的设计和功能对于确保飞行过程中的安全性和效率至关重要。当我们想到飞机时,往往忽视了创造有效的air vessel所需的复杂工程。飞机的机身、机翼和尾部共同构成一个有机整体,使其能够在空中导航。air vessel的每个组成部分都必须经过精心设计,以承受飞行过程中遇到的各种压力和力量。例如,机翼的形状被设计用来产生升力,这是飞机上升和保持高度所必需的。这种升力是通过空气在机翼表面上的流动产生的,展示了空气与air vessel之间的复杂关系。此外,构建air vessel所使用的材料在其性能中也起着至关重要的作用。轻便而耐用的材料,如铝和复合纤维,通常被用于减轻重量,同时保持结构完整性。这种平衡至关重要,因为更轻的air vessel可以实现更高的燃油效率,从而降低运营成本并减少对环境的影响。此外,air vessel一词不仅限于传统飞机。它还包括其他类型的飞行器,例如直升机和无人机。每种air vessel的飞行原理各不相同。例如,直升机利用旋翼产生升力和机动性,而无人机可能依赖先进的技术和传感器来保持稳定和控制。了解每种类型的air vessel的独特特性使我们能够欣赏航空技术的多样性。近年来,技术的进步促使创新设计的air vessel不断涌现。电动和混合动力飞机正在变得越来越普遍,承诺通过减少碳排放和噪音污染来彻底改变航空业。这些新型的air vessel挑战了传统的飞行观念,并推动了航空领域可能性的边界。此外,air vessel的重要性不仅限于运输。它们在科学研究、环境监测和灾害响应中也发挥着重要作用。例如,气象气球作为一种air vessel,用于收集大气数据,这对于理解气候变化和预测严重天气事件至关重要。同样,无人驾驶飞行器(UAV)在搜索和救援行动中越来越多地被使用,提供实时数据和图像,可以拯救生命。总之,air vessel这一术语涵盖了广泛的飞机和飞行技术,这些技术是现代交通和科学探索的基础。理解这些air vessel的复杂性增强了我们对允许我们在空中穿越的工程奇迹的欣赏。随着技术的不断进步,air vessel的未来承诺将更加令人兴奋,创新将塑造我们从高空与世界互动的方式。