air vessel
简明释义
空气瓶的气室
英英释义
A container or structure designed to hold or transport air, often used in the context of balloons, blimps, or other lighter-than-air craft. | 一个设计用来容纳或运输空气的容器或结构,通常用于气球、飞艇或其他轻于空气的飞行器。 |
例句
1.Engineers designed a new type of air vessel that can carry more passengers.
工程师设计了一种新型的空气船,可以载更多的乘客。
2.The pilot checked the condition of the air vessel before takeoff.
飞行员在起飞前检查了空气船的状况。
3.The air vessel was equipped with state-of-the-art navigation systems.
该空气船配备了最先进的导航系统。
4.During the storm, the air vessel managed to stay airborne thanks to its robust design.
在暴风雨中,由于其坚固的设计,空气船成功保持在空中。
5.An air vessel is essential for transporting goods quickly across long distances.
一个空气船对于快速运输货物跨越长距离至关重要。
作文
The concept of an air vessel is often associated with the field of aviation and aerodynamics. An air vessel refers to any structure or vehicle that is designed to travel through the atmosphere, utilizing the principles of lift and thrust to navigate the skies. This term can encompass a wide range of flying objects, from small drones and gliders to large commercial airplanes and military aircraft. Understanding the mechanics and design of an air vessel is crucial for engineers and pilots alike, as it involves intricate calculations and considerations regarding weight, speed, and environmental factors.In modern aviation, the design of an air vessel has evolved significantly. Early pioneers like the Wright brothers laid the foundation for powered flight, but today’s aircraft are the result of decades of research and technological advancements. Engineers utilize computer simulations to test the aerodynamics of an air vessel before it is even built, allowing for more efficient designs that can withstand the rigors of flight.One of the most fascinating aspects of an air vessel is how it interacts with the air around it. The principles of lift, drag, and thrust are essential for understanding how these vehicles operate. Lift is generated by the wings of the air vessel, which create a difference in air pressure above and below them as they move forward. This lift must overcome the weight of the aircraft, allowing it to ascend into the sky. Meanwhile, thrust is produced by engines, propelling the air vessel forward, while drag acts as a resistance force that must be minimized for efficient flight.Safety is another critical aspect of designing an air vessel. Engineers must consider various factors such as structural integrity, material strength, and redundancy systems to ensure that the aircraft can withstand adverse conditions. For instance, commercial airliners are equipped with multiple engines and backup systems to enhance safety during flight. Pilots undergo extensive training to handle emergencies, ensuring that they can manage any situation that may arise while operating an air vessel.Moreover, the environmental impact of an air vessel cannot be overlooked. As concerns about climate change grow, the aviation industry is exploring more sustainable practices. Innovations such as electric propulsion and alternative fuels are being researched to reduce the carbon footprint of flying. The goal is to create air vessels that are not only efficient but also environmentally friendly, paving the way for a greener future in aviation.In conclusion, the term air vessel encompasses a wide array of flying machines, each designed with specific purposes and technologies. From the basic principles of aerodynamics to advanced engineering techniques, understanding what constitutes an air vessel is essential for anyone interested in aviation. As technology continues to advance, we can expect to see even more innovative designs and concepts that redefine what an air vessel can be, further expanding our horizons in the realm of flight.
“air vessel”这一概念通常与航空和空气动力学领域相关。air vessel指的是任何旨在通过大气层旅行的结构或车辆,利用升力和推力的原理在空中导航。这个术语可以涵盖从小型无人机和滑翔机到大型商用飞机和军用飞机等各种飞行物体。理解air vessel的机械原理和设计对于工程师和飞行员来说至关重要,因为这涉及到关于重量、速度和环境因素的复杂计算和考虑。在现代航空中,air vessel的设计已经显著演变。早期的先驱者如莱特兄弟为动力飞行奠定了基础,但今天的飞机是数十年研究和技术进步的结果。工程师们利用计算机模拟在建造之前测试air vessel的空气动力学,使得可以设计出更高效的飞机,以承受飞行的严酷条件。air vessel最迷人的方面之一是它如何与周围的空气相互作用。升力、阻力和推力的原理是理解这些飞行器如何操作的关键。升力由air vessel的机翼产生,当它向前移动时,机翼上下方产生空气压力差。这种升力必须克服飞机的重量,使其能够升空。同时,推力由发动机产生,推动air vessel向前,而阻力则作为一种抵抗力,需要尽量减少以实现高效飞行。安全性是设计air vessel的另一个关键方面。工程师必须考虑多种因素,如结构完整性、材料强度和冗余系统,以确保飞机能够承受不利条件。例如,商用客机配备多台发动机和备用系统,以增强飞行安全。飞行员接受广泛培训,以处理紧急情况,确保他们能够管理在操作air vessel时可能出现的任何情况。此外,air vessel对环境的影响也不可忽视。随着对气候变化的关注不断增加,航空业正在探索更可持续的做法。电动推进和替代燃料等创新正在被研究,以减少飞行的碳足迹。目标是创造出不仅高效而且环保的air vessels,为航空业的绿色未来铺平道路。总之,air vessel一词涵盖了各种飞行器,每种飞行器都具有特定的用途和技术。从空气动力学的基本原理到先进的工程技术,理解什么构成air vessel对任何对航空感兴趣的人来说都是至关重要的。随着技术的不断进步,我们可以期待看到更多创新的设计和概念重新定义air vessel的含义,进一步扩展我们在飞行领域的视野。
