gas trubine-electric propulsion

简明释义

燃气轮机电力推进

英英释义

例句

1.The gas turbine-electric propulsion system allows for quieter operation, making it ideal for submarines.

该燃气涡轮电力推进系统允许更安静的操作，适合潜艇使用。

2.The new ship is equipped with gas turbine-electric propulsion, which enhances its speed and efficiency.

这艘新船配备了燃气涡轮电力推进系统，这提高了它的速度和效率。

3.With gas turbine-electric propulsion, the aircraft can achieve higher thrust-to-weight ratios.

通过燃气涡轮电力推进，飞机可以达到更高的推重比。

4.The environmental benefits of gas turbine-electric propulsion are becoming increasingly important in shipping.

在航运中，燃气涡轮电力推进的环境效益变得越来越重要。

5.Many modern naval vessels utilize gas turbine-electric propulsion for better maneuverability.

许多现代海军舰艇采用燃气涡轮电力推进以提高机动性。

作文

In the modern era of technological advancement, the demand for efficient and sustainable energy sources has become paramount. One of the most promising developments in this field is the concept of gas turbine-electric propulsion (燃气轮机电力推进). This innovative technology combines the power of gas turbines with electric propulsion systems to create a highly efficient and environmentally friendly means of transportation. In this essay, I will explore the principles behind gas turbine-electric propulsion and its potential applications in various industries.The basic principle of gas turbine-electric propulsion involves using a gas turbine to generate electricity, which then powers electric motors that drive the vehicle or vessel. Gas turbines are known for their high efficiency and power-to-weight ratio, making them an ideal choice for propulsion systems. When coupled with electric motors, they can significantly reduce fuel consumption and emissions compared to traditional internal combustion engines.One of the primary advantages of gas turbine-electric propulsion is its adaptability. This technology can be applied to a wide range of vehicles, including aircraft, ships, and even land vehicles. In aviation, for instance, the use of gas turbine engines has been a standard practice for decades. However, integrating electric propulsion can enhance efficiency and reduce noise levels, making air travel more sustainable and pleasant for passengers.In maritime applications, gas turbine-electric propulsion offers significant benefits as well. Ships powered by gas turbines can achieve higher speeds and improved maneuverability. Additionally, the electric motors can provide instant torque, allowing for better control during docking and navigation. Furthermore, the lower emissions associated with this technology align with global efforts to reduce the environmental impact of shipping.Land vehicles, such as buses and trucks, can also benefit from gas turbine-electric propulsion. By utilizing this hybrid system, manufacturers can create vehicles that are not only powerful but also eco-friendly. The combination of gas turbines and electric motors allows for regenerative braking, where energy is recovered during deceleration and fed back into the system, further enhancing efficiency.Despite its numerous advantages, the implementation of gas turbine-electric propulsion is not without challenges. The initial cost of developing and deploying this technology can be high, which may deter some industries from adopting it. Additionally, there are concerns regarding the availability of suitable fuels for gas turbines, as the industry moves towards greener alternatives.Nevertheless, ongoing research and development in the field of gas turbine-electric propulsion continue to address these challenges. As technology advances and the demand for cleaner energy solutions grows, we can expect to see more widespread adoption of this propulsion system across various sectors.In conclusion, gas turbine-electric propulsion represents a significant step towards a more sustainable future in transportation. Its ability to combine efficiency with reduced environmental impact makes it an attractive option for industries looking to innovate and comply with stricter regulations. As we move forward, the potential for gas turbine-electric propulsion to revolutionize how we think about and utilize energy in transportation cannot be underestimated. With continued investment and research, this technology could pave the way for a cleaner, more efficient world.

在现代科技进步的时代，对高效和可持续能源的需求变得至关重要。燃气轮机电力推进（gas turbine-electric propulsion）是这一领域最有前景的发展之一。这项创新技术将燃气轮机的动力与电力推进系统结合起来，创造出一种高效且环保的运输方式。在这篇文章中，我将探讨燃气轮机电力推进的原理及其在各个行业中的潜在应用。燃气轮机电力推进的基本原理是利用燃气轮机发电，然后用电动机驱动车辆或船只。燃气轮机以其高效率和功重比而闻名，使其成为推进系统的理想选择。当与电动机相结合时，它们可以显著减少燃料消耗和排放，与传统的内燃机相比更具优势。燃气轮机电力推进的主要优点之一是其适应性。这项技术可以应用于广泛的车辆，包括飞机、船只甚至陆地车辆。例如，在航空领域，燃气轮机发动机的使用已经是数十年的标准实践。然而，集成电力推进可以提高效率并降低噪音水平，使航空旅行更加可持续并让乘客感到愉悦。在海洋应用中，燃气轮机电力推进同样提供显著的好处。由燃气轮机驱动的船只可以实现更高的速度和更好的机动性。此外，电动机可以提供瞬时扭矩，从而在靠泊和导航时提供更好的控制。此外，与该技术相关的较低排放符合全球减少航运环境影响的努力。陆地车辆，如公交车和卡车，也可以从燃气轮机电力推进中受益。通过利用这种混合系统，制造商可以创造出不仅强大且环保的车辆。燃气轮机与电动机的结合允许再生制动，即在减速过程中回收能量并反馈到系统中，进一步提高效率。尽管有许多优点，实施燃气轮机电力推进也面临挑战。开发和部署这项技术的初始成本可能很高，这可能会使某些行业不愿意采用。此外，随着行业向更环保的替代品转型，关于燃气轮机适用燃料的可用性也存在担忧。尽管如此，关于燃气轮机电力推进领域的持续研究和开发仍在不断解决这些挑战。随着技术的进步和对清洁能源解决方案需求的增加，我们可以期待这一推进系统在各个行业的更广泛应用。总之，燃气轮机电力推进代表了交通运输朝着更可持续未来迈出的重要一步。它将效率与减少环境影响相结合，使其成为希望创新并遵守更严格法规的行业的有吸引力的选择。随着我们向前发展，燃气轮机电力推进在改变我们对能源的思考和利用方式方面的潜力不可低估。通过持续的投资和研究，这项技术可以为一个更清洁、更高效的世界铺平道路。