nonsalient pole machine

简明释义

非突极机

英英释义

例句

1.A nonsalient pole machine 无突出极机 can be used in synchronous generators for power plants.

在发电厂的同步发电机中可以使用无突出极机。

2.In the design of a nonsalient pole machine 无突出极机, the rotor is typically cylindrical.

在设计无突出极机时，转子通常是圆柱形的。

3.Engineers prefer the nonsalient pole machine 无突出极机 for its smooth torque characteristics.

工程师们更喜欢无突出极机，因为它具有平稳的扭矩特性。

4.The nonsalient pole machine 无突出极机 operates efficiently at high speeds.

这种无突出极机在高速下运行效率很高。

5.The nonsalient pole machine 无突出极机 is often used in applications requiring high efficiency.

这种无突出极机通常用于需要高效率的应用中。

作文

In the realm of electrical engineering, the term nonsalient pole machine refers to a type of synchronous machine that is characterized by its rotor design. Unlike salient pole machines, which have protruding poles, nonsalient pole machine features a smooth cylindrical rotor. This design allows for a more uniform magnetic field distribution and is particularly advantageous in applications where high speeds are required. The nonsalient pole machine operates efficiently at synchronous speeds, making it ideal for generators in power plants and large motors in industrial settings.The construction of a nonsalient pole machine typically involves a rotor that is either wound or has permanent magnets embedded within it. This configuration not only contributes to the machine's efficiency but also enhances its performance in terms of stability and torque production. One of the key advantages of the nonsalient pole machine is its ability to maintain a constant speed under varying load conditions. This characteristic is essential for applications such as hydroelectric power generation, where the speed of the generator must remain stable to ensure optimal energy output.Moreover, the nonsalient pole machine is less prone to cogging torque compared to its salient pole counterparts. Cogging torque can cause undesirable fluctuations in speed, leading to inefficiencies and potential damage to the machine. By minimizing this effect, the nonsalient pole machine provides a smoother operation, which is crucial for maintaining the integrity of the electrical supply.In addition to its mechanical advantages, the nonsalient pole machine also offers benefits in terms of maintenance and longevity. The simpler rotor design reduces wear and tear, which translates to lower maintenance costs over the lifespan of the machine. Industries that rely on continuous operation, such as manufacturing and processing plants, greatly benefit from the reliability of nonsalient pole machine technology.When considering the economic aspects, the initial investment in a nonsalient pole machine may be higher than that of a salient pole machine; however, the long-term savings due to reduced operational and maintenance costs often justify the expenditure. Furthermore, as industries move towards automation and increased efficiency, the demand for nonsalient pole machine technologies is likely to grow.In conclusion, the nonsalient pole machine plays a vital role in modern electrical engineering applications. Its unique design and operational characteristics make it suitable for a variety of uses, particularly in high-speed and high-efficiency environments. As technology continues to evolve, the importance of understanding and utilizing nonsalient pole machine will only increase, paving the way for advancements in energy generation and industrial machinery. Engineers and technicians must continue to explore the capabilities of these machines to harness their full potential in future innovations.

在电气工程领域，术语无凸极机指的是一种同步机器，其特征在于其转子设计。与具有突出极的凸极机不同，无凸极机具有光滑的圆柱形转子。这种设计允许更均匀的磁场分布，特别适用于需要高转速的应用。无凸极机在同步速度下高效运行，非常适合用于发电厂的发电机和工业环境中的大型电动机。无凸极机的构造通常涉及一个绕组转子或嵌入永久磁铁的转子。这种配置不仅有助于机器的效率，还增强了其在稳定性和扭矩产生方面的性能。无凸极机的一个主要优点是它能够在负载条件变化时保持恒定速度。这一特性对于水电发电等应用至关重要，因为发电机的速度必须保持稳定，以确保最佳的能量输出。此外，与其凸极机相比，无凸极机对齿槽转矩的敏感性较低。齿槽转矩可能导致速度的不必要波动，从而导致效率降低和潜在的机器损坏。通过最小化这种效应，无凸极机提供了更平稳的操作，这对于维持电力供应的完整性至关重要。除了机械优势外，无凸极机在维护和使用寿命方面也提供了好处。更简单的转子设计减少了磨损，这意味着机器在整个生命周期内的维护成本较低。依赖于连续操作的行业，如制造和加工厂，极大受益于无凸极机技术的可靠性。在考虑经济方面时，无凸极机的初始投资可能高于凸极机；然而，由于运营和维护成本的降低，长期节省通常可以证明这笔支出。此外，随着行业向自动化和提高效率的方向发展，对无凸极机技术的需求可能会增加。总之，无凸极机在现代电气工程应用中发挥着至关重要的作用。其独特的设计和操作特性使其适用于各种用途，特别是在高速和高效率的环境中。随着技术的不断发展，理解和利用无凸极机的重要性只会增加，为能源生成和工业机械的进步铺平道路。工程师和技术人员必须继续探索这些机器的能力，以充分发挥它们在未来创新中的潜力。