engining

简明释义

英[ˈɛn.dʒɪ.nɪŋ]美[ˈɛn.dʒɪ.nɪŋ]

vt. 给……装备发动机（engine 的现在分词）

n. （给船、飞机等）装备发动机

英英释义

单词用法

同义词

反义词

例句

1.The team is focused on the process of engining 发动机制造 to improve performance.

团队专注于engining 发动机制造的过程，以提高性能。

2.We need to consider the engining 引擎设计 aspects when developing this new vehicle.

在开发这款新车时，我们需要考虑engining 引擎设计的各个方面。

3.The engining 发动机技术 used in modern cars has advanced significantly.

现代汽车中使用的engining 发动机技术已经有了显著进步。

4.Our project involves engining 动力系统开发 for renewable energy vehicles.

我们的项目涉及可再生能源车辆的engining 动力系统开发。

5.The engineers are working on engining 引擎优化 to enhance fuel efficiency.

工程师们正在进行engining 引擎优化以提高燃油效率。

作文

In the world of technology and innovation, one term that stands out is engining, which refers to the process of designing, building, and operating engines, particularly in vehicles and machinery. The significance of engining cannot be overstated, as it plays a crucial role in the advancement of transportation and industrial capabilities. As we delve into the importance of engining, it becomes clear that this field is not only about mechanics but also encompasses creativity, problem-solving, and sustainability. The history of engining dates back to the Industrial Revolution when steam engines transformed the way goods were produced and transported. This era marked a significant shift in human capability, allowing for mass production and faster movement across distances. Today, the evolution of engining has led to the development of various types of engines, including internal combustion engines, electric motors, and hybrid systems. Each type of engine presents unique challenges and opportunities for engineers. One of the most exciting aspects of engining is its continuous innovation. Engineers are constantly seeking ways to improve efficiency, reduce emissions, and enhance performance. For instance, the automotive industry has made great strides in developing electric vehicles (EVs) that utilize advanced engining technologies to minimize environmental impact. These innovations not only address the urgent need for sustainable transportation but also pave the way for new economic opportunities and job creation. Moreover, engining is not limited to automobiles. It extends to aerospace, marine, and even renewable energy sectors. In aerospace, for example, jet engines are designed to provide thrust while maximizing fuel efficiency. The principles of engining in aviation are critical for ensuring safety and reliability in air travel, which is vital for global connectivity. As we reflect on the future of engining, it is essential to consider the role of education and research in this field. Universities and technical institutions are at the forefront of training the next generation of engineers who will push the boundaries of what is possible. Collaborative efforts between academia and industry are crucial for fostering innovation and addressing real-world challenges. Research in alternative fuels, such as hydrogen and biofuels, exemplifies how engining can contribute to a more sustainable future. In conclusion, engining is a dynamic and vital field that impacts many aspects of our lives. From the cars we drive to the planes we fly, the principles of engining are embedded in our daily experiences. As we continue to face global challenges, such as climate change and resource scarcity, the importance of engining will only grow. By investing in research, education, and sustainable practices, we can ensure that engining remains at the forefront of technological advancement and contributes positively to society. In summary, engining (发动机设计与制造) is an integral part of modern engineering that not only drives innovation but also shapes the future of transportation and industry. The ongoing developments in this field are essential for creating a more efficient and sustainable world, making it a subject worth exploring for anyone interested in technology and its impact on society.

在科技与创新的世界中，有一个词语尤为突出，那就是engining，它指的是设计、制造和操作发动机的过程，尤其是在车辆和机械中。engining的重要性不容小觑，因为它在交通运输和工业能力的提升中扮演着至关重要的角色。当我们深入探讨engining的重要性时，可以清楚地看到，这个领域不仅涉及机械学，还包含了创造力、问题解决和可持续性。 engining的历史可以追溯到工业革命时期，当时的蒸汽机改变了商品的生产和运输方式。这一时代标志着人类能力的重大转变，使大规模生产和更快的跨距移动成为可能。如今，engining的演变导致了各种类型发动机的发展，包括内燃机、电动机和混合动力系统。每种类型的发动机都为工程师提供了独特的挑战和机遇。 engining最令人兴奋的方面之一是其不断的创新。工程师们不断寻找提高效率、减少排放和增强性能的方法。例如，汽车行业在开发电动车（EV）方面取得了巨大进展，这些电动车利用先进的engining技术来最小化环境影响。这些创新不仅解决了对可持续交通的迫切需求，也为新的经济机会和就业创造铺平了道路。 此外，engining并不限于汽车。它还扩展到航空航天、海洋甚至可再生能源领域。例如，在航空航天领域，喷气发动机被设计用于在最大化燃油效率的同时提供推力。航空领域的engining原理对于确保航空旅行的安全性和可靠性至关重要，这对于全球的连通性至关重要。 当我们反思engining的未来时，考虑教育和研究在这一领域中的作用是至关重要的。大学和技术机构处于培训下一代工程师的前沿，他们将推动可能性的边界。学术界与工业界之间的合作努力对于促进创新和解决现实世界的挑战至关重要。在替代燃料（如氢和生物燃料）的研究中，engining如何为更可持续的未来做出贡献的例子便是其中之一。 总之，engining是一个充满活力且至关重要的领域，影响着我们生活的许多方面。从我们驾驶的汽车到我们乘坐的飞机，engining的原理深深植根于我们的日常体验中。随着我们继续面临全球挑战，如气候变化和资源短缺，engining的重要性只会增加。通过投资于研究、教育和可持续实践，我们可以确保engining始终处于技术进步的前沿，并积极地为社会做出贡献。 总之，engining（发动机设计与制造）是现代工程中不可或缺的一部分，它不仅驱动创新，还塑造交通和工业的未来。该领域的持续发展对于创造一个更高效和可持续的世界至关重要，使其成为任何对技术及其对社会影响感兴趣的人值得探索的主题。