gas turbo-electric

简明释义

燃气涡轮发电机

英英释义

例句

1.In the marine industry, gas turbo-electric propulsion is becoming increasingly popular.

在海洋工业中，气体涡轮电力推进正在变得越来越受欢迎。

2.Many modern aircraft utilize gas turbo-electric systems for their engines to reduce emissions.

许多现代飞机使用气体涡轮电力系统作为其发动机，以减少排放。

3.The new ship is powered by a gas turbo-electric engine, which provides greater efficiency.

这艘新船由气体涡轮电力发动机驱动，提供更高的效率。

4.The gas turbo-electric generator can produce more power while consuming less fuel.

该气体涡轮电力发电机可以在消耗更少燃料的情况下产生更多电力。

5.The military is investing in gas turbo-electric technology for next-generation vehicles.

军方正在投资于下一代车辆的气体涡轮电力技术。

作文

In the realm of modern engineering and technology, the term gas turbo-electric refers to a sophisticated system that combines gas turbines with electric power generation. This innovative approach has gained significant traction in various industries, particularly in aviation and marine applications. The essence of a gas turbo-electric system lies in its ability to harness the power of gas turbines to produce electricity, which can then be utilized for propulsion or other energy needs. Gas turbines operate on the principle of converting chemical energy from fuel into mechanical energy through combustion. In a gas turbo-electric setup, the gas turbine drives a generator, producing electrical energy. This electricity can power electric motors, which are increasingly being used in aircraft and ships for propulsion. The advantages of this system are manifold. Firstly, it offers improved efficiency compared to traditional mechanical systems. Electric motors can provide instant torque, allowing for better acceleration and responsiveness. Furthermore, gas turbo-electric systems can reduce emissions, as they can be designed to operate on cleaner fuels or integrate with renewable energy sources.One of the most notable applications of gas turbo-electric technology is in the aviation industry. Modern aircraft designers are exploring hybrid propulsion systems that utilize gas turbines in conjunction with electric motors. This not only enhances fuel efficiency but also reduces noise pollution, making air travel more environmentally friendly. For instance, several companies are investing in research and development to create aircraft that can operate partially on electric power generated by gas turbo-electric systems. Similarly, the maritime industry is witnessing a shift towards gas turbo-electric propulsion systems. Many new vessels are being equipped with gas turbines that generate electricity for electric drive systems. This transition allows for greater flexibility in ship design and can lead to lower operational costs. Additionally, by using gas turbo-electric technology, ships can achieve higher speeds and improved maneuverability, which are crucial for both commercial and military vessels.However, the implementation of gas turbo-electric systems is not without its challenges. The initial investment in such technologies can be substantial, and there are ongoing concerns regarding the reliability and maintenance of complex electric systems. Moreover, as the world moves towards a greener future, the source of the gas used in these turbines must also be considered. Transitioning to sustainable fuels is essential to truly capitalize on the environmental benefits offered by gas turbo-electric systems.In conclusion, the gas turbo-electric system represents a significant advancement in the field of energy conversion and propulsion technology. Its ability to combine the high power output of gas turbines with the efficiency and responsiveness of electric motors positions it as a key player in the future of transportation. As industries continue to innovate and invest in cleaner technologies, the role of gas turbo-electric systems will likely expand, paving the way for a more sustainable and efficient future in both aviation and maritime sectors.

在现代工程和技术领域，术语gas turbo-electric指的是一种将燃气涡轮与电力生成结合在一起的复杂系统。这种创新方法在航空和海洋应用等各个行业中得到了显著关注。gas turbo-electric系统的本质在于其能够利用燃气涡轮产生电力，这些电力可以用于推进或其他能源需求。燃气涡轮的工作原理是通过燃烧将燃料中的化学能转化为机械能。在gas turbo-electric设置中，燃气涡轮驱动发电机，产生电能。这种电能可以为电动机提供动力，而电动机在飞机和船只的推进中越来越多地被使用。该系统的优势是多方面的。首先，与传统机械系统相比，它提供了更高的效率。电动机可以提供瞬时扭矩，从而实现更好的加速和响应。此外，gas turbo-electric系统可以减少排放，因为它们可以设计为使用更清洁的燃料或与可再生能源相结合。gas turbo-electric技术最显著的应用之一是在航空工业中。现代飞机设计师正在探索混合推进系统，利用燃气涡轮与电动机结合。这不仅提高了燃油效率，还减少了噪音污染，使航空旅行更加环保。例如，几家公司正在投资研发，创造能够部分依靠gas turbo-electric系统生成的电力运行的飞机。同样，海事行业也正在向gas turbo-electric推进系统转变。许多新船只配备了燃气涡轮，为电动驱动系统生成电力。这一转变使船只设计更加灵活，并可能降低运营成本。此外，通过使用gas turbo-electric技术，船只可以实现更高的速度和更好的机动性，这对于商业和军事船只都是至关重要的。然而，实施gas turbo-electric系统并非没有挑战。这些技术的初始投资可能相当可观，并且关于复杂电力系统的可靠性和维护的持续担忧。此外，随着世界朝着更绿色的未来发展，必须考虑这些涡轮所使用的气体来源。过渡到可持续燃料对于真正利用gas turbo-electric系统所提供的环境效益至关重要。总之，gas turbo-electric系统代表了能源转换和推进技术领域的重要进展。它将燃气涡轮的高功率输出与电动机的效率和响应性相结合，使其成为未来交通运输的关键参与者。随着各行业继续创新并投资于更清洁的技术，gas turbo-electric系统的角色可能会扩大，为航空和海洋领域的可持续和高效未来铺平道路。