astern steam turbine

简明释义

倒车汽车机

英英释义

例句

1.The ship's propulsion system includes an astern steam turbine 后向蒸汽涡轮 that enhances its maneuverability.

这艘船的推进系统包括一个后向蒸汽涡轮，增强了其机动性。

2.With the astern steam turbine 后向蒸汽涡轮, the crew can navigate tight spaces more easily.

有了后向蒸汽涡轮，船员可以更轻松地在狭窄空间内航行。

3.The engineers installed a new astern steam turbine 后向蒸汽涡轮 to improve the vessel's backward speed.

工程师们安装了一台新的后向蒸汽涡轮以提高船只的倒退速度。

4.During the trials, the astern steam turbine 后向蒸汽涡轮 proved to be efficient in reverse operations.

在试验中，后向蒸汽涡轮在倒车操作中表现出高效。

5.The maintenance of the astern steam turbine 后向蒸汽涡轮 is crucial for safe maritime operations.

对后向蒸汽涡轮的维护对安全的海上作业至关重要。

作文

The evolution of marine propulsion systems has been a fascinating journey, showcasing the ingenuity of engineers and the advancement of technology over the years. One of the significant developments in this field is the use of the astern steam turbine, a powerful engine that has transformed the way ships operate. Understanding the function and importance of the astern steam turbine can provide valuable insights into modern maritime engineering and its historical context.Historically, steam power revolutionized transportation in the 19th century. The introduction of steam engines allowed ships to travel faster and more efficiently than their sail-powered counterparts. Among various steam engine designs, the astern steam turbine stands out due to its unique configuration. Unlike traditional reciprocating steam engines, which use pistons to generate motion, the astern steam turbine employs a series of rotating blades to convert steam energy into mechanical power. This design not only enhances efficiency but also reduces vibrations and maintenance requirements, making it an ideal choice for modern vessels.The operation of an astern steam turbine is relatively straightforward. Steam is generated in a boiler and directed towards the turbine. As the steam passes through the turbine blades, it causes them to spin rapidly, thus producing thrust. This propulsion system is particularly advantageous for vessels that require quick maneuverability, such as naval ships and luxury yachts. The ability to achieve high speeds and maintain control makes the astern steam turbine a preferred choice in many maritime applications.One of the key benefits of using the astern steam turbine is its compact size compared to traditional engines. This allows ship designers to maximize cargo space and improve overall vessel layout. Furthermore, the astern steam turbine is known for its reliability and longevity, which are critical factors in the maritime industry where downtime can result in significant financial losses.In recent years, the focus on environmental sustainability has prompted engineers to explore alternative fuels and hybrid systems. While the astern steam turbine primarily operates on steam generated from fossil fuels, there is potential for integrating renewable energy sources into its design. For instance, utilizing biofuels or solar energy to generate steam could significantly reduce the carbon footprint of ships equipped with astern steam turbines.Moreover, the advancements in digital technology and automation have led to the development of smart propulsion systems. These systems can optimize the performance of the astern steam turbine by adjusting operational parameters in real-time based on varying conditions at sea. This not only enhances fuel efficiency but also improves safety by allowing for better navigation and control.In conclusion, the astern steam turbine represents a remarkable achievement in marine engineering. Its efficient design, reliability, and adaptability make it a crucial component in modern vessels. As the maritime industry continues to evolve, the astern steam turbine will likely play a significant role in shaping the future of marine propulsion, especially in the quest for greener and more sustainable technologies. Understanding the astern steam turbine is essential for anyone interested in maritime technology and its ongoing innovations.

海洋推进系统的演变是一段迷人的旅程，展示了工程师的聪明才智和技术的进步。其中一个重要的发展就是使用后向蒸汽涡轮机，这种强大的发动机改变了船只的操作方式。理解后向蒸汽涡轮机的功能和重要性，可以为现代海洋工程及其历史背景提供有价值的见解。在历史上，蒸汽动力在19世纪革命性地改变了交通运输。蒸汽机的引入使得船只能够比帆船更快、更高效地航行。在各种蒸汽机设计中，后向蒸汽涡轮机因其独特的配置而脱颖而出。与使用活塞产生运动的传统往复蒸汽机不同，后向蒸汽涡轮机采用一系列旋转叶片将蒸汽能量转化为机械动力。这种设计不仅提高了效率，还减少了振动和维护需求，使其成为现代船舶的理想选择。后向蒸汽涡轮机的操作相对简单。蒸汽在锅炉中产生并导向涡轮。当蒸汽通过涡轮叶片时，会使其迅速旋转，从而产生推力。这种推进系统对于需要快速机动性的船只尤其有利，例如海军舰艇和豪华游艇。实现高速和保持控制的能力使得后向蒸汽涡轮机在许多海洋应用中成为首选。使用后向蒸汽涡轮机的一个关键好处是其相较于传统发动机的紧凑尺寸。这使得船舶设计师能够最大化货物空间并改善整体船舶布局。此外，后向蒸汽涡轮机以其可靠性和耐用性而闻名，这在海洋行业至关重要，因为停机时间可能导致重大经济损失。近年来，关注环境可持续性促使工程师探索替代燃料和混合系统。尽管后向蒸汽涡轮机主要依靠化石燃料产生蒸汽，但在其设计中整合可再生能源的潜力仍然存在。例如，利用生物燃料或太阳能来产生蒸汽，可以显著减少配备后向蒸汽涡轮机的船只的碳足迹。此外，数字技术和自动化的进步催生了智能推进系统。这些系统可以根据海洋条件的变化实时调整后向蒸汽涡轮机的操作参数，从而优化其性能。这不仅提高了燃油效率，还通过更好的导航和控制提高了安全性。总之，后向蒸汽涡轮机代表了海洋工程中的一项杰出成就。其高效设计、可靠性和适应性使其成为现代船舶的重要组成部分。随着海洋行业的不断发展，后向蒸汽涡轮机将在塑造海洋推进的未来中发挥重要作用，特别是在追求更环保和可持续技术的过程中。理解后向蒸汽涡轮机对于任何对海洋技术及其持续创新感兴趣的人来说都是至关重要的。