alternating current generator
简明释义
交流发电机
英英释义
A device that converts mechanical energy into electrical energy in the form of alternating current (AC), which periodically reverses direction. | 一种将机械能转换为交流电(AC)形式的电能的设备,交流电周期性地改变方向。 |
例句
1.The power plant uses an alternating current generator 交流发电机 to supply electricity to the grid.
发电厂使用交流发电机向电网供电。
2.The engineer explained how the alternating current generator 交流发电机 works during the workshop.
工程师在研讨会上解释了如何工作的交流发电机。
3.When troubleshooting, it's important to check the output voltage of the alternating current generator 交流发电机.
在故障排除时,检查交流发电机的输出电压很重要。
4.The alternating current generator 交流发电机 is essential for converting mechanical energy into electrical energy.
交流发电机对于将机械能转换为电能是必不可少的。
5.In our physics class, we learned about the efficiency of an alternating current generator 交流发电机 compared to a direct current generator.
在我们的物理课上,我们学习了交流发电机与直流发电机的效率比较。
作文
The invention of the alternating current generator has revolutionized the way we harness and utilize electrical energy. Before the advent of this technology, direct current (DC) systems dominated the electrical landscape. However, as the demand for more efficient and reliable power sources grew, the need for an innovative solution became apparent. The alternating current generator emerged as a key player in this transformation, allowing for the generation and distribution of electricity over long distances with minimal loss of power.An alternating current generator, often referred to as an AC generator or alternator, operates on the principle of electromagnetic induction. When a conductor, such as a copper wire, moves through a magnetic field, it induces an electric current within the conductor. This process is fundamental to the operation of an alternating current generator, which typically consists of a rotor and a stator. The rotor, which is connected to a mechanical source of energy, spins within the magnetic field created by the stator. As the rotor turns, it generates an alternating current that can be transmitted through power lines to homes and businesses.One of the most significant advantages of using an alternating current generator is its ability to transform voltage levels easily. This is accomplished through the use of transformers, which can step up or step down the voltage of the generated current. High voltage is essential for long-distance transmission, as it reduces energy losses due to resistance in the wires. Once the electricity reaches its destination, transformers can then lower the voltage to safe levels for consumer use.Moreover, the alternating current generator allows for the integration of renewable energy sources into the power grid. Wind turbines and hydroelectric plants commonly utilize AC generators to produce electricity. This capability is crucial as the world shifts towards more sustainable energy practices. By harnessing natural resources, the alternating current generator plays a vital role in reducing our reliance on fossil fuels and minimizing environmental impact.The versatility of the alternating current generator extends beyond just electricity generation; it also supports various applications in different industries. From powering household appliances to driving industrial machinery, AC generators are integral to modern life. They provide the energy needed for lighting, heating, and cooling systems, as well as for running computers and other electronic devices.In conclusion, the alternating current generator represents a cornerstone of contemporary electrical engineering. Its ability to generate, transform, and distribute electricity efficiently has made it indispensable in our daily lives. As technology continues to advance, the alternating current generator will undoubtedly evolve further, paving the way for innovations that will shape the future of energy production and consumption. Understanding the significance of this technology is essential for anyone interested in the fields of engineering, energy, and sustainability. The alternating current generator not only powers our world but also holds the key to a cleaner and more efficient energy future.
交流发电机的发明彻底改变了我们获取和利用电能的方式。在这项技术出现之前,直流电(DC)系统主导了电力领域。然而,随着对更高效、更可靠的电源需求的增长,创新解决方案的必要性变得显而易见。交流发电机作为这一转型的关键角色应运而生,使得电力能够以最小的能量损失在长距离内生成和分配。交流发电机,通常被称为AC发电机或交流发电机,基于电磁感应原理运行。当导体(如铜线)在磁场中移动时,会在导体内部产生电流。这一过程是交流发电机操作的基础,通常由转子和定子组成。转子连接到机械能源,在定子产生的磁场中旋转。随着转子的转动,它产生的交流电可以通过电力线路传输到家庭和企业。使用交流发电机的一个显著优势是它能够轻松地转换电压水平。这是通过变压器实现的,变压器可以提高或降低生成电流的电压。高电压对于长距离传输至关重要,因为它减少了由于电线中的电阻造成的能量损失。一旦电力到达目的地,变压器可以将电压降低到安全的消费水平。此外,交流发电机还允许可再生能源源的整合进入电网。风力涡轮机和水电站通常利用交流发电机来生产电力。这一能力至关重要,因为世界正在向更可持续的能源实践转变。通过利用自然资源,交流发电机在减少我们对化石燃料的依赖和最小化环境影响方面发挥着重要作用。交流发电机的多功能性不仅限于电力生成;它还支持不同行业中的各种应用。从为家用电器供电到驱动工业机械,交流发电机在现代生活中不可或缺。它们提供照明、供暖和制冷系统所需的能量,以及运行计算机和其他电子设备所需的能量。总之,交流发电机代表了当代电气工程的基石。其高效生成、转换和分配电力的能力使其在我们日常生活中不可或缺。随着技术的不断进步,交流发电机无疑会进一步发展,为塑造未来能源生产和消费的创新铺平道路。理解这一技术的重要性对于任何对工程、能源和可持续性领域感兴趣的人来说都是必不可少的。交流发电机不仅为我们的世界提供动力,而且还掌握着更清洁、更高效的能源未来的关键。
相关单词
