cycloidal propeller

简明释义

平旋推进器

英英释义

例句

1.The cycloidal propeller 涡轮螺旋桨 has been used in various naval applications for its unique advantages.

涡轮螺旋桨 cycloidal propeller因其独特优势已被应用于多种海军用途。

2.The design of the cycloidal propeller 涡轮螺旋桨 allows for greater maneuverability in tight spaces.

这种涡轮螺旋桨 cycloidal propeller的设计使得在狭小空间内具有更好的机动性。

3.The cycloidal propeller 涡轮螺旋桨 can adjust its pitch, allowing for variable thrust and improved performance.

涡轮螺旋桨 cycloidal propeller可以调节其螺距，从而实现可变推力和提升性能。

4.Research shows that vessels equipped with a cycloidal propeller 涡轮螺旋桨 can achieve better fuel efficiency.

研究表明，配备涡轮螺旋桨 cycloidal propeller的船只可以获得更好的燃油效率。

5.In marine engineering, the cycloidal propeller 涡轮螺旋桨 is often used for tugboats due to its efficiency.

在海洋工程中，由于其高效性，涡轮螺旋桨 cycloidal propeller常用于拖船。

作文

The advancement of marine technology has led to the development of various innovative propulsion systems, one of which is the cycloidal propeller. A cycloidal propeller (旋转螺旋桨) is a type of propulsion device that utilizes rotating blades to generate thrust. Unlike conventional propellers that spin around a fixed axis, the blades of a cycloidal propeller rotate in a cycloidal motion, allowing for greater maneuverability and efficiency. This unique design enables the vessel to change its direction more rapidly without the need for rudders, making it particularly useful for ships that require high levels of agility, such as tugboats and research vessels.One of the remarkable features of the cycloidal propeller is its ability to operate efficiently at different speeds and loads. The blades can be adjusted to change their pitch and angle, optimizing the thrust generated for varying operational conditions. This adaptability not only enhances fuel efficiency but also reduces noise pollution, which is crucial for marine environments where maintaining ecological balance is essential.Historically, the concept of the cycloidal propeller dates back to the early 20th century, with significant contributions from engineers who aimed to improve ship handling capabilities. Research and development have continued over the decades, leading to modern implementations in various naval and commercial vessels. Today, the design is recognized for its effectiveness in both surface vessels and underwater applications, showcasing its versatility.In practical applications, the cycloidal propeller has been utilized in several notable projects. For instance, some advanced submarines employ this technology to enhance their stealth capabilities. The quiet operation of the cycloidal propeller minimizes noise, making it harder for sonar systems to detect the submarine. Additionally, research vessels equipped with this propulsion system can navigate delicate ecosystems with minimal disturbance, facilitating better scientific exploration and data collection.The future of marine propulsion may see an increase in the adoption of the cycloidal propeller as environmental concerns grow and the demand for sustainable shipping solutions rises. As industries strive to reduce their carbon footprint, the energy-efficient characteristics of the cycloidal propeller position it as a viable alternative to traditional propulsion methods. Furthermore, ongoing innovations in materials and engineering techniques promise to enhance the performance and reliability of these systems.In conclusion, the cycloidal propeller represents a significant leap forward in marine propulsion technology. Its unique design offers numerous advantages, including improved maneuverability, fuel efficiency, and reduced environmental impact. As we continue to explore the depths of our oceans and navigate the complexities of marine transport, the cycloidal propeller stands out as a key player in shaping the future of maritime operations. Understanding and harnessing the potential of this technology will be crucial for both industry professionals and researchers alike, as we work towards a more sustainable and efficient maritime industry.

海洋技术的进步导致了各种创新推进系统的发展，其中之一就是旋转螺旋桨。旋转螺旋桨（cycloidal propeller）是一种利用旋转叶片产生推力的推进装置。与围绕固定轴旋转的传统螺旋桨不同，旋转螺旋桨的叶片以旋转的方式运动，从而允许更大的机动性和效率。这种独特的设计使得船只能够更快速地改变方向，而无需舵，使其特别适用于需要高度灵活性的船舶，如拖船和研究船。旋转螺旋桨的一个显著特点是它能够在不同速度和负载下高效运行。叶片可以调节以改变其俯仰角和角度，从而优化在不同操作条件下产生的推力。这种适应性不仅提高了燃油效率，还减少了噪音污染，这对于需要维持生态平衡的海洋环境至关重要。历史上，旋转螺旋桨的概念可以追溯到20世纪初，工程师们为改善船舶操控能力做出了重要贡献。几十年来，研究和开发持续进行，导致了现代在各种海军和商业船舶上的应用。如今，这种设计因其在水面船舶和水下应用中的有效性而受到认可，展示了其多功能性。在实际应用中，旋转螺旋桨被用于几个显著的项目。例如，一些先进的潜艇采用该技术来增强其隐蔽能力。旋转螺旋桨的安静操作最小化了噪音，使声纳系统更难探测到潜艇。此外，配备这种推进系统的研究船可以在最小干扰的情况下导航脆弱的生态系统，从而促进更好的科学探索和数据收集。随着环境问题的日益严重以及对可持续航运解决方案的需求增加，未来海洋推进可能会看到对旋转螺旋桨的采用增加。随着各行业努力减少碳足迹，旋转螺旋桨的节能特性使其成为传统推进方法的可行替代方案。此外，材料和工程技术的持续创新有望提高这些系统的性能和可靠性。总之，旋转螺旋桨代表了海洋推进技术的重要飞跃。其独特的设计提供了许多优点，包括提高的机动性、燃油效率和减少的环境影响。在我们继续探索海洋深处和应对海洋运输复杂性时，旋转螺旋桨作为塑造海事运营未来的关键参与者脱颖而出。理解和利用这一技术的潜力对于行业专业人士和研究人员来说都至关重要，因为我们共同致力于一个更可持续和高效的海事行业。