diesel-electric transmission

简明释义

柴油机电力传动

英英释义

例句

1.In the construction industry, equipment with diesel-electric transmission is preferred for its reliability and efficiency.

在建筑行业，配备柴油电传动的设备因其可靠性和效率而受到青睐。

2.The marine vessel was equipped with a diesel-electric transmission system that allowed for smoother sailing.

这艘海洋船只配备了柴油电传动系统，使航行更加平稳。

3.The use of diesel-electric transmission in hybrid vehicles has become increasingly popular for reducing fuel consumption.

在混合动力汽车中使用柴油电传动越来越受到欢迎，以减少燃油消耗。

4.Many modern locomotives utilize diesel-electric transmission to provide powerful traction while minimizing noise.

许多现代机车采用柴油电传动，在提供强大牵引力的同时减少噪音。

5.The new train model features a state-of-the-art diesel-electric transmission, which enhances fuel efficiency and reduces emissions.

新型火车模型采用了最先进的柴油电传动，提高了燃油效率并减少了排放。

作文

In the modern world, various technologies have been developed to enhance efficiency and performance in transportation. One of the most significant advancements in this field is the use of diesel-electric transmission. This innovative system combines the benefits of diesel engines with electric propulsion, resulting in a more efficient and powerful means of transportation. The diesel-electric transmission system works by using a diesel engine to generate electricity, which then powers electric motors that drive the wheels of the vehicle. This method allows for greater flexibility and control compared to traditional mechanical systems. The primary advantage of diesel-electric transmission is its efficiency. Diesel engines are known for their fuel efficiency and longevity, making them ideal for generating electricity. By converting mechanical energy into electrical energy, the system minimizes energy loss and maximizes performance. Electric motors, being lighter and more responsive than conventional engines, provide instant torque, allowing vehicles equipped with diesel-electric transmission to accelerate quickly and efficiently. Another notable benefit of diesel-electric transmission is its environmental impact. While diesel engines do produce emissions, the overall reduction in fuel consumption leads to lower greenhouse gas emissions compared to traditional diesel-powered vehicles. Additionally, the integration of electric propulsion can enable hybrid systems that utilize battery power, further decreasing reliance on fossil fuels. This makes diesel-electric transmission an attractive option for industries looking to reduce their carbon footprint while maintaining operational efficiency. The application of diesel-electric transmission is not limited to road vehicles; it is also widely used in marine and rail transport. In the maritime industry, large vessels like container ships and ferries often employ this technology to improve fuel efficiency and reduce emissions. Similarly, many modern locomotives utilize diesel-electric transmission to provide the necessary power for hauling heavy loads over long distances. This versatility makes it a valuable technology across various sectors. Despite its advantages, the adoption of diesel-electric transmission is not without challenges. The initial cost of implementing such systems can be higher than traditional methods, which may deter some operators from making the switch. Moreover, maintenance and repair of the electrical components can require specialized knowledge and skills, potentially leading to increased operational costs. However, as technology continues to advance and the demand for sustainable solutions grows, it is likely that these challenges will be addressed. In conclusion, diesel-electric transmission represents a significant leap forward in transportation technology. Its ability to combine the efficiency of diesel engines with the responsiveness of electric motors makes it a compelling choice for various applications. As industries strive to become more sustainable and reduce their environmental impact, the role of diesel-electric transmission is expected to grow. Understanding and embracing this technology will be crucial for future developments in transportation, ensuring that we move towards a more efficient and eco-friendly future.

在现代世界中，各种技术的发展旨在提高交通运输的效率和性能。其中最重要的进展之一是采用柴油电传动系统。这一创新系统将柴油发动机的优点与电力推进相结合，形成了一种更高效、更强大的交通运输方式。柴油电传动系统通过使用柴油发动机发电，然后利用电动机驱动车辆的车轮。这种方法相比传统机械系统提供了更大的灵活性和控制能力。柴油电传动的主要优势在于其效率。柴油发动机以其燃油效率和耐用性而闻名，非常适合用于发电。通过将机械能转化为电能，该系统最大限度地减少了能量损失，提升了性能。电动机比传统发动机更轻且反应更快，能够提供瞬时扭矩，使得配备柴油电传动的车辆能够快速高效地加速。柴油电传动的另一个显著好处是其对环境的影响。尽管柴油发动机确实会产生排放，但整体燃油消耗的降低使得与传统柴油动力车辆相比，温室气体排放量减少。此外，电力推进的整合可以实现混合动力系统，利用电池电力，进一步减少对化石燃料的依赖。因此，柴油电传动成为希望降低碳足迹的行业的一个有吸引力的选择，同时保持运营效率。柴油电传动的应用不仅限于公路车辆；它还广泛用于海洋和铁路运输。在海运行业，大型船只如集装箱船和渡轮通常采用这一技术，以提高燃油效率并减少排放。同样，许多现代机车也利用柴油电传动来提供牵引重载长途运输所需的动力。这种多功能性使其在各个行业中都具有重要价值。尽管有诸多优势，柴油电传动的采用并非没有挑战。实施此类系统的初始成本可能高于传统方法，这可能会阻止一些运营商进行转换。此外，电气组件的维护和修理可能需要专业知识和技能，从而可能导致运营成本增加。然而，随着技术的不断进步和对可持续解决方案需求的增长，这些挑战很可能会得到解决。总之，柴油电传动代表了交通运输技术的一次重大飞跃。它将柴油发动机的效率与电动机的响应性结合起来，使其成为各种应用的有力选择。随着各行业努力实现可持续发展并减少环境影响，柴油电传动的作用预计将不断增长。理解并接受这一技术对于未来交通运输的发展至关重要，确保我们朝着更高效、更环保的未来迈进。