water-jet propulsion gas turbine

简明释义

喷水推进燃气轮机

英英释义

例句

1.The new yacht features a powerful water-jet propulsion gas turbine, which allows for faster speeds and greater maneuverability.

这艘新游艇配备了强大的水射流推进燃气涡轮，可以实现更快的速度和更好的机动性。

2.The water-jet propulsion gas turbine technology has revolutionized the way we think about marine transportation.

水射流推进燃气涡轮技术彻底改变了我们对海洋运输的看法。

3.In naval engineering, the water-jet propulsion gas turbine is often preferred for its efficiency in shallow waters.

在海军工程中，水射流推进燃气涡轮因其在浅水区的高效性而受到青睐。

4.The research team developed a new design for the water-jet propulsion gas turbine to enhance fuel efficiency.

研究团队开发了一种新的水射流推进燃气涡轮设计，以提高燃油效率。

5.Many modern ferries utilize water-jet propulsion gas turbines to ensure quick and smooth transfers across water bodies.

许多现代渡轮使用水射流推进燃气涡轮以确保在水域之间快速平稳地转移。

作文

The advancement of technology has led to the development of various propulsion systems, one of which is the water-jet propulsion gas turbine. This innovative system combines the principles of gas turbines with water-jet propulsion to create a highly efficient means of moving vehicles, particularly in marine environments. The water-jet propulsion gas turbine utilizes high-speed jets of water to generate thrust, allowing for rapid acceleration and maneuverability. Unlike traditional propellers, which can be less efficient and more cumbersome, the water-jet system provides a streamlined approach to propulsion.In essence, the water-jet propulsion gas turbine operates by drawing water into a pump, where it is then accelerated and expelled at high velocity through a nozzle. This creates a reaction force that propels the vessel forward. The integration of a gas turbine enhances this process by providing a powerful source of energy that can be converted into mechanical work. As a result, vessels equipped with this system can achieve impressive speeds while maintaining fuel efficiency.One of the significant advantages of the water-jet propulsion gas turbine is its ability to operate in shallow waters. Traditional vessels with propeller systems often struggle in such environments due to their draft, which limits their operational capabilities. In contrast, the water-jet system allows for greater flexibility, making it suitable for a wide range of applications, from recreational boats to military vessels.Moreover, the water-jet propulsion gas turbine is known for its reduced noise and vibration levels compared to conventional propulsion methods. This characteristic is particularly beneficial in scenarios where stealth is essential, such as naval operations or wildlife observation. The quieter operation of water-jet systems minimizes disturbances to marine life and enhances the overall experience for passengers.The environmental impact of the water-jet propulsion gas turbine is another area of interest. With growing concerns about pollution and sustainability, the efficiency of this propulsion system can lead to lower emissions and a smaller ecological footprint. By optimizing fuel consumption and reducing waste, the water-jet system aligns with modern demands for greener technologies.Furthermore, the design and maintenance of vessels utilizing the water-jet propulsion gas turbine can be simplified. Since there are fewer moving parts than in traditional propulsion systems, the likelihood of mechanical failure is reduced. This simplicity not only lowers maintenance costs but also enhances the reliability of the vessels.In conclusion, the water-jet propulsion gas turbine represents a significant leap forward in propulsion technology. Its unique combination of gas turbine efficiency and water-jet dynamics opens up new possibilities for marine transportation. As the demand for faster, more efficient, and environmentally friendly vessels continues to grow, the importance of understanding and implementing systems like the water-jet propulsion gas turbine will become increasingly evident. The future of marine engineering may very well depend on innovations such as this, paving the way for a new era of exploration and travel across our oceans.

随着技术的进步，各种推进系统应运而生，其中之一就是水喷射推进燃气轮机。这一创新系统结合了燃气轮机的原理和水喷射推进，创造了一种在海洋环境中高效移动车辆的手段。水喷射推进燃气轮机利用高速水流来产生推力，从而实现快速加速和灵活操控。与传统螺旋桨相比，后者效率较低且笨重，水喷射系统提供了一种更为流线型的推进方式。本质上，水喷射推进燃气轮机通过将水吸入泵中，然后加速并通过喷嘴以高速度排出，来运作。这产生了一种反作用力，将船只向前推进。燃气轮机的集成增强了这一过程，提供了强大的能量源，可转化为机械功。因此，配备该系统的船只能够在保持燃油效率的同时实现令人印象深刻的速度。水喷射推进燃气轮机的一个显著优势是其在浅水中操作的能力。传统的螺旋桨系统往往在这样的环境中难以发挥作用，因为其吃水限制了操作能力。相比之下，水喷射系统允许更大的灵活性，使其适用于从休闲船到军舰的广泛应用。此外，与传统推进方法相比，水喷射推进燃气轮机以其降低的噪音和振动水平而闻名。这一特性在需要隐秘的场景中尤为重要，例如海军行动或野生动物观察。水喷射系统的安静运行最小化了对海洋生物的干扰，并增强了乘客的整体体验。水喷射推进燃气轮机的环境影响也是一个关注点。随着对污染和可持续性问题的日益关注，这一推进系统的高效性可以导致更低的排放和更小的生态足迹。通过优化燃料消耗和减少废物，水喷射系统与现代对绿色技术的需求相一致。此外，利用水喷射推进燃气轮机的船只的设计和维护可以简化。由于运动部件比传统推进系统少，机械故障的可能性降低。这种简单性不仅降低了维护成本，还增强了船只的可靠性。总之，水喷射推进燃气轮机代表了推进技术的一次重大飞跃。其燃气轮机效率与水喷射动力学的独特结合为海洋运输开辟了新的可能性。随着对更快、更高效和环保船只的需求不断增长，理解和实施像水喷射推进燃气轮机这样的系统的重要性将变得愈发明显。海洋工程的未来可能正依赖于这样的创新，为我们探索和旅行于海洋铺平道路。