Wankel engine

简明释义

三角活塞内燃机

英英释义

A Wankel engine is a type of internal combustion engine that uses a rotary design to convert pressure into rotating motion, featuring a triangular rotor that orbits within an epitrochoidal housing.

Wankel发动机是一种内部燃烧发动机,采用旋转设计将压力转化为旋转运动,具有一个在外椭圆形壳体内旋转的三角形转子。

例句

1.The Wankel engine 转子发动机 has fewer moving parts compared to traditional piston engines.

与传统活塞发动机相比,Wankel engine 转子发动机的活动部件更少。

2.Some motorcycle manufacturers are exploring the use of the Wankel engine 转子发动机 for their new models.

一些摩托车制造商正在探索在其新车型中使用Wankel engine 转子发动机

3.The Mazda RX-7 is famous for its use of the Wankel engine 转子发动机, which offers a unique driving experience.

马自达RX-7因其使用的Wankel engine 转子发动机而闻名,提供了独特的驾驶体验。

4.Due to its compact size, the Wankel engine 转子发动机 is often used in small aircraft.

由于其紧凑的尺寸,Wankel engine 转子发动机常用于小型飞机。

5.Many enthusiasts appreciate the lightweight design of the Wankel engine 转子发动机 in sports cars.

许多爱好者欣赏运动汽车中Wankel engine 转子发动机的轻量化设计。

作文

The automotive industry has seen numerous innovations over the years, one of which is the Wankel engine. This unique rotary engine design was invented by German engineer Felix Wankel in the 1950s. Unlike traditional piston engines that rely on reciprocating motion, the Wankel engine employs a triangular rotor that revolves within an epitrochoidal chamber, resulting in a smooth and efficient power delivery. The distinct design of the Wankel engine allows for fewer moving parts, which not only reduces weight but also enhances reliability.One of the most notable advantages of the Wankel engine is its compact size. This makes it an attractive option for manufacturers looking to save space without compromising on performance. For instance, Mazda, a prominent manufacturer of Wankel engines, utilized this technology in their RX series of sports cars. These vehicles are celebrated for their lightweight construction and impressive power-to-weight ratio, largely attributed to the Wankel engine’s design.However, despite its benefits, the Wankel engine is not without its drawbacks. One significant issue is fuel consumption. While the engine produces a high power output, it often does so at the expense of efficiency. Many enthusiasts argue that the exhilarating driving experience provided by the Wankel engine justifies the lower fuel economy, but this remains a point of contention among consumers.Another challenge faced by the Wankel engine is emissions. The unique combustion process can lead to higher levels of unburned hydrocarbons, which can be detrimental to the environment. As emissions regulations have become more stringent globally, manufacturers have had to invest in advanced technologies to mitigate these issues while still harnessing the power of the Wankel engine.Despite these challenges, the Wankel engine has maintained a devoted following among car enthusiasts and engineers alike. Its distinctive sound and performance characteristics offer a driving experience that is hard to replicate with conventional piston engines. Moreover, the Wankel engine has found applications beyond automobiles, including in motorcycles and even drones, showcasing its versatility.In recent years, there has been a resurgence of interest in the Wankel engine as manufacturers explore alternative fuels and hybrid technologies. Some researchers are investigating the potential of using hydrogen as a fuel source for the Wankel engine, which could address some of the environmental concerns associated with its traditional use. This innovation could pave the way for a new generation of cleaner, more efficient Wankel engines that retain the performance benefits of their predecessors.In conclusion, the Wankel engine stands out as a fascinating example of engineering ingenuity. While it faces challenges related to fuel efficiency and emissions, its unique design offers advantages that have captivated the automotive world for decades. As technology continues to evolve, the future of the Wankel engine may hold exciting possibilities, ensuring its place in the annals of automotive history.

汽车工业多年来经历了许多创新,其中之一就是转子发动机。这种独特的旋转发动机设计是由德国工程师费利克斯·万克尔在20世纪50年代发明的。与依赖往复运动的传统活塞发动机不同,转子发动机采用一个三角形转子在一个外接轮廓腔内旋转,从而实现平稳高效的动力输出。转子发动机独特的设计使其运动部件更少,这不仅减少了重量,还提高了可靠性。转子发动机最显著的优点之一是其紧凑的尺寸。这使得它成为制造商在不妥协性能的情况下节省空间的吸引选项。例如,马自达是一家著名的转子发动机制造商,他们在RX系列跑车中利用了这一技术。这些车辆因其轻量化结构和令人印象深刻的功率重量比而受到赞誉,这在很大程度上归功于转子发动机的设计。然而,尽管有其优势,转子发动机并非没有缺点。一个显著的问题是燃油消耗。虽然发动机产生较高的功率输出,但往往以效率为代价。许多爱好者认为,转子发动机所提供的刺激驾驶体验证明了较低的燃油经济性是合理的,但这在消费者中仍然是一个争论点。转子发动机面临的另一个挑战是排放。独特的燃烧过程可能导致未燃烧的碳氢化合物的水平升高,这对环境有害。随着全球排放法规变得越来越严格,制造商必须投资先进技术,以减轻这些问题,同时仍能利用转子发动机的动力。尽管面临这些挑战,转子发动机在汽车爱好者和工程师中仍保持着忠实的追随者。其独特的声音和性能特征提供了一种难以用传统活塞发动机复制的驾驶体验。此外,转子发动机还在摩托车甚至无人机等领域找到了应用,展示了其多功能性。近年来,随着制造商探索替代燃料和混合技术,转子发动机的兴趣再次复苏。一些研究人员正在调查使用氢气作为转子发动机燃料来源的潜力,这可能解决与其传统使用相关的一些环境问题。这一创新可能为新一代更清洁、更高效的转子发动机铺平道路,同时保留其前身的性能优势。总之,转子发动机作为工程智慧的一个迷人例子脱颖而出。虽然它面临燃油效率和排放方面的挑战,但其独特的设计提供了吸引人的优点,几十年来一直吸引着汽车界。随着技术的不断发展,转子发动机的未来可能会带来令人兴奋的可能性,确保其在汽车历史中的地位。