condensing engine

简明释义

凝气式蒸汽机

英英释义

例句

1.Engineers are researching ways to improve the performance of the condensing engine (冷凝发动机) for better fuel efficiency.

工程师们正在研究提高冷凝发动机（冷凝发动机）性能的方法，以提高燃料效率。

2.The condensing engine (冷凝发动机) is designed to recover waste heat and convert it back into usable energy.

该冷凝发动机（冷凝发动机）旨在回收废热并将其转化为可用能量。

3.The new power plant utilizes a highly efficient condensing engine (冷凝发动机) to maximize energy output.

这座新电厂利用一种高效的冷凝发动机（冷凝发动机）来最大化能量输出。

4.In marine applications, a condensing engine (冷凝发动机) can significantly reduce emissions.

在海洋应用中，冷凝发动机（冷凝发动机）可以显著减少排放。

5.The latest model of the condensing engine (冷凝发动机) features advanced technology for improved reliability.

最新型号的冷凝发动机（冷凝发动机）采用先进技术，提高了可靠性。

作文

The development of the condensing engine has played a crucial role in the history of engineering and technology. This type of engine, which operates on the principles of thermodynamics, is designed to improve efficiency by utilizing steam that would otherwise be wasted. The condensing engine achieves this by cooling the steam after it has done work, allowing it to condense back into water. This process not only conserves energy but also reduces the amount of fuel needed to produce steam, making it a more sustainable option compared to traditional engines.Historically, the invention of the condensing engine can be attributed to James Watt in the late 18th century. Before Watt's innovation, steam engines were inefficient and consumed vast amounts of fuel. By introducing the concept of condensation, Watt was able to significantly increase the efficiency of steam engines, which in turn spurred the Industrial Revolution. Factories could now operate machinery with less fuel, leading to increased production and economic growth.The design of the condensing engine involves a condenser, where the steam is cooled and condensed back into water. This water can then be reused in the boiler, creating a closed-loop system that minimizes waste. The efficiency of the condensing engine allows for greater power output without a proportional increase in fuel consumption. As a result, these engines became widely adopted in various sectors, including transportation, manufacturing, and power generation.In modern times, the principles behind the condensing engine have been applied to various technologies, including power plants and marine engines. For instance, many thermal power plants utilize condensing turbines to maximize efficiency. These systems are designed to extract as much energy as possible from the steam before it is condensed. This not only improves the overall efficiency of the plant but also reduces emissions, contributing to a cleaner environment.Furthermore, the condensing engine has influenced the design of other types of engines, such as internal combustion engines. While these engines operate on different principles, the concept of maximizing energy output while minimizing waste remains a fundamental goal in engineering. Innovations in materials and design continue to enhance the performance of these engines, ensuring that they meet the demands of modern society.In conclusion, the condensing engine represents a significant advancement in engineering that has had a lasting impact on technology and industry. Its ability to recycle steam and reduce fuel consumption has made it a cornerstone of efficient energy use. As we move towards a more sustainable future, the principles behind the condensing engine will remain relevant, guiding innovations in energy production and consumption. Understanding this engine's operation and benefits is essential for anyone interested in the fields of engineering, environmental science, or energy management.

凝结发动机的发展在工程和技术史上发挥了至关重要的作用。这种类型的发动机基于热力学原理设计，旨在通过利用本来会被浪费的蒸汽来提高效率。凝结发动机通过在蒸汽完成工作后冷却它，使其重新凝结成水，从而实现这一点。这个过程不仅节约了能源，还减少了产生蒸汽所需的燃料量，使其成为比传统发动机更可持续的选择。历史上，凝结发动机的发明可以归功于詹姆斯·瓦特，他在18世纪末提出了这一概念。在瓦特的创新之前，蒸汽机效率低下，消耗大量燃料。通过引入凝结的概念，瓦特能够显著提高蒸汽机的效率，这反过来又推动了工业革命。工厂现在可以用更少的燃料运转机器，从而导致生产力的提高和经济增长。凝结发动机的设计涉及一个冷凝器，在这里蒸汽被冷却并重新凝结成水。这些水可以在锅炉中重新使用，创建一个闭环系统，最小化浪费。凝结发动机的效率使得在不成比例增加燃料消耗的情况下获得更大的功率输出。因此，这些发动机在运输、制造和发电等各个行业得到了广泛应用。在现代，凝结发动机背后的原理已应用于各种技术，包括发电厂和海洋发动机。例如，许多热电厂利用凝结涡轮机来最大化效率。这些系统旨在从蒸汽中提取尽可能多的能量，然后再进行冷凝。这不仅改善了工厂的整体效率，还减少了排放，有助于创造更清洁的环境。此外，凝结发动机影响了其他类型发动机的设计，如内燃机。虽然这些发动机的操作原理不同，但最大化能量输出同时最小化浪费的概念仍然是工程中的基本目标。材料和设计的创新不断提升这些发动机的性能，确保它们满足现代社会的需求。总之，凝结发动机代表了工程领域的一项重要进步，对技术和工业产生了持久的影响。它回收蒸汽和减少燃料消耗的能力使其成为高效能源利用的基石。随着我们朝着更加可持续的未来迈进，凝结发动机背后的原理将继续保持相关性，引导能源生产和消费的创新。了解这种发动机的操作和好处对任何对工程、环境科学或能源管理感兴趣的人来说都是至关重要的。