induction dynamometer

简明释义

感应式测功器

英英释义

例句

1.Using an induction dynamometer can help determine the power losses in the system.

使用感应测功机可以帮助确定系统中的功率损失。

2.The engineer used an induction dynamometer to measure the torque output of the electric motor.

工程师使用感应测功机来测量电动机的扭矩输出。

3.The induction dynamometer is essential for evaluating the efficiency of various mechanical systems.

为了评估各种机械系统的效率，感应测功机是必不可少的。

4.For our project, we decided to incorporate an induction dynamometer for precise measurements.

在我们的项目中，我们决定使用感应测功机进行精确测量。

5.In the lab, we calibrated the induction dynamometer for accurate performance testing.

在实验室，我们对感应测功机进行了校准，以确保性能测试的准确性。

作文

In the realm of engineering and physics, various tools and instruments are utilized to measure different parameters. One such tool is the induction dynamometer, which plays a crucial role in assessing the performance of engines and motors. The induction dynamometer (感应测功机) is specifically designed to measure torque and power output, providing valuable data for engineers and researchers alike. This device operates on the principle of electromagnetic induction, allowing it to gauge the performance of rotating machinery with great accuracy.The working mechanism of an induction dynamometer involves the interaction between magnetic fields and electric currents. When a conductor, such as a rotor, moves within a magnetic field, it induces an electromotive force (EMF). This induced voltage can be measured to determine the torque produced by the engine or motor under test. By analyzing the relationship between the induced voltage and the rotational speed, one can calculate the power output of the machine.One of the significant advantages of using an induction dynamometer is its ability to provide real-time data. Engineers can monitor the performance of an engine while it is running, allowing for immediate adjustments and optimizations. This feature is particularly beneficial in research and development settings, where precise measurements are essential for improving engine efficiency and performance.Moreover, the induction dynamometer is often employed in various applications, including automotive testing, aerospace engineering, and industrial machinery evaluation. In automotive testing, for instance, it helps manufacturers assess the power output of new engines, ensuring they meet regulatory standards and performance expectations. Similarly, in aerospace engineering, the induction dynamometer is used to evaluate the performance of jet engines, contributing to the safety and reliability of aircraft.Despite its many advantages, the induction dynamometer also has some limitations. For instance, its reliance on electromagnetic principles means that it may not be suitable for measuring low-speed or low-torque applications. Additionally, the complexity of the device requires skilled personnel to operate and interpret the results accurately. Therefore, while the induction dynamometer is a powerful tool, it is essential to understand its appropriate use cases and limitations.In conclusion, the induction dynamometer (感应测功机) is an invaluable instrument in the field of engineering, providing critical insights into the performance of various machines. Its ability to measure torque and power output through electromagnetic induction makes it a preferred choice for many applications. As technology continues to advance, the use of induction dynamometers will likely expand, further enhancing our understanding of mechanical systems and their efficiencies. By leveraging this technology, engineers can design better-performing engines and contribute to the ongoing quest for improved energy efficiency in machinery.

在工程和物理学领域，各种工具和仪器被用来测量不同的参数。其中一个工具是感应测功机，它在评估发动机和电动机的性能方面发挥着至关重要的作用。感应测功机专门设计用于测量扭矩和功率输出，为工程师和研究人员提供有价值的数据。该设备基于电磁感应原理工作，使其能够非常准确地衡量旋转机械的性能。感应测功机的工作机制涉及磁场与电流之间的相互作用。当导体（例如转子）在磁场中移动时，会产生电动势（EMF）。这个感应电压可以被测量，以确定发动机或电动机在测试下产生的扭矩。通过分析感应电压与转速之间的关系，可以计算出机器的功率输出。使用感应测功机的一个显著优势是它能够提供实时数据。工程师可以在发动机运行时监控其性能，从而进行即时调整和优化。这一特性在研发环境中特别有利，因为精确的测量对于提高发动机效率和性能至关重要。此外，感应测功机通常用于各种应用，包括汽车测试、航空航天工程和工业机械评估。例如，在汽车测试中，它帮助制造商评估新发动机的功率输出，确保其符合监管标准和性能预期。同样，在航空航天工程中，感应测功机用于评估喷气发动机的性能，为飞机的安全性和可靠性做出贡献。尽管有许多优点，感应测功机也有一些局限性。例如，它依赖于电磁原理，因此可能不适合测量低速或低扭矩应用。此外，设备的复杂性要求专业人员准确操作和解释结果。因此，虽然感应测功机是一种强大的工具，但了解其适当的使用案例和局限性是至关重要的。总之，感应测功机（感应测功机）是工程领域中一项宝贵的仪器，为各种机器的性能提供关键洞察。通过电磁感应测量扭矩和功率输出使其成为许多应用的首选。随着技术的不断进步，感应测功机的使用范围可能会扩大，进一步增强我们对机械系统及其效率的理解。通过利用这一技术，工程师可以设计出性能更好的发动机，并为持续提高机械能效的努力作出贡献。