power transmission

简明释义

动力传动

英英释义

The process of transferring mechanical power from one location to another, typically using systems such as gears, belts, chains, or hydraulic systems.

将机械动力从一个位置转移到另一个位置的过程,通常使用齿轮、皮带、链条或液压系统等系统。

In electrical engineering, it refers to the transmission of electrical energy from generation sources to distribution points.

在电气工程中,指的是将电能从发电源传输到分配点的过程。

例句

1.The new power transmission 电力传输 lines will improve reliability in rural areas.

新的电力传输线路将提高农村地区的可靠性。

2.Engineers are working on improving power transmission 电力传输 efficiency in electric vehicles.

工程师正在努力提高电动汽车的电力传输效率。

3.Renewable energy sources often require advanced power transmission 电力传输 technologies to connect to the grid.

可再生能源通常需要先进的电力传输技术才能连接到电网。

4.High-voltage power transmission 电力传输 is essential for transporting electricity over long distances.

高压电力传输对于长距离输送电力至关重要。

5.The efficiency of power transmission 电力传输 systems is crucial for reducing energy losses.

电力传输系统的效率对减少能源损失至关重要。

作文

Power transmission is a crucial aspect of modern engineering and technology. It refers to the process of transferring energy from one location to another, typically from a power source to machinery or equipment that utilizes that energy. Understanding power transmission (动力传输) is essential for various industries, including manufacturing, automotive, and renewable energy sectors.In the manufacturing industry, power transmission (动力传输) systems are vital for operating machinery such as conveyor belts, pumps, and motors. These systems ensure that energy is efficiently delivered to where it is needed, allowing for smooth and effective production processes. For instance, in an automotive assembly line, the coordination of multiple machines relies heavily on effective power transmission (动力传输) to maintain productivity and minimize downtime.The automotive industry itself has seen significant advancements in power transmission (动力传输) technologies. Traditional internal combustion engines have been gradually replaced by electric motors, which require new methods of power transmission (动力传输). Electric vehicles (EVs) utilize sophisticated systems to convert electrical energy into mechanical energy, enabling efficient movement. This shift towards electric power not only enhances performance but also contributes to reducing carbon emissions, highlighting the importance of innovative power transmission (动力传输) solutions in combating climate change.In the realm of renewable energy, power transmission (动力传输) plays a critical role in harnessing natural resources like wind and solar power. Wind turbines generate electricity that must be transmitted over long distances to reach consumers. The efficiency of this power transmission (动力传输) system affects the overall viability of wind energy as a sustainable resource. Similarly, solar panels convert sunlight into electricity, which also requires a reliable power transmission (动力传输) infrastructure to deliver energy to the grid.Moreover, the development of smart grids is revolutionizing power transmission (动力传输). These advanced electrical grids use digital technology to monitor and manage the flow of electricity, optimizing the delivery of power based on real-time demand. Smart grids enhance the efficiency of power transmission (动力传输) by integrating various energy sources, improving reliability, and reducing waste.In conclusion, power transmission (动力传输) is an integral part of our technological landscape, influencing various sectors and driving innovation. As we move towards a more sustainable future, understanding and improving power transmission (动力传输) systems will be essential for maximizing energy efficiency and reducing environmental impact. Whether in manufacturing, automotive applications, or renewable energy, the principles of power transmission (动力传输) continue to shape our world and pave the way for advancements in technology and sustainability.

动力传输是现代工程和技术中至关重要的一个方面。它指的是将能量从一个地点转移到另一个地点的过程,通常是从电源到利用该能量的机械或设备。理解动力传输power transmission)对制造业、汽车业和可再生能源等多个行业至关重要。在制造行业中,动力传输power transmission)系统对于操作如输送带、泵和电动机等机械至关重要。这些系统确保能量有效地传递到所需位置,从而实现平稳和高效的生产过程。例如,在汽车组装线中,多台机器的协调高度依赖于有效的动力传输power transmission),以维持生产力并减少停机时间。汽车行业本身在动力传输power transmission)技术上也取得了显著进展。传统的内燃机逐渐被电动机取代,这需要新的动力传输power transmission)方法。电动车(EV)利用复杂的系统将电能转化为机械能,从而实现高效运动。这种向电力的转变不仅提高了性能,还帮助减少碳排放,突显了创新的动力传输power transmission)解决方案在应对气候变化中的重要性。在可再生能源领域,动力传输power transmission)在利用风能和太阳能等自然资源中发挥着关键作用。风力涡轮机产生的电力必须通过长距离传输才能到达消费者。这种动力传输power transmission)系统的效率影响着风能作为可持续资源的整体可行性。同样,太阳能电池板将阳光转化为电力,这也需要可靠的动力传输power transmission)基础设施来将电能送入电网。此外,智能电网的发展正在革新动力传输power transmission)。这些先进的电网利用数字技术监控和管理电力流动,根据实时需求优化电力的传递。智能电网通过整合各种能源来源,提高了动力传输power transmission)的效率,改善了可靠性,并减少了浪费。总之,动力传输power transmission)是我们技术领域不可或缺的一部分,影响着多个部门并推动创新。随着我们朝着更可持续的未来迈进,理解和改善动力传输power transmission)系统将对最大化能源效率和减少环境影响至关重要。无论是在制造、汽车应用还是可再生能源中,动力传输power transmission)的原则继续塑造我们的世界,并为技术和可持续性方面的进步铺平道路。