peak kilovolts

简明释义

峰值千伏

英英释义

例句

1.Engineers must ensure that the output does not exceed 25 peak kilovolts (峰千伏) during operation.

工程师必须确保运行期间输出不超过25峰千伏(峰千伏)。

2.During testing, the system reached 15 peak kilovolts (峰千伏), which is within the safe operating range.

在测试过程中，系统达到了15峰千伏(峰千伏)，这在安全操作范围内。

3.The design specifications call for a breakdown voltage of at least 10 peak kilovolts (峰千伏).

设计规范要求击穿电压至少为10峰千伏(峰千伏)。

4.The transformer can handle a maximum voltage of 20 peak kilovolts (峰千伏) without overheating.

该变压器在不加热的情况下可以承受最高20峰千伏(峰千伏)的电压。

5.The electrical equipment is rated for 30 peak kilovolts (峰千伏) to ensure reliability under high loads.

该电气设备的额定值为30峰千伏(峰千伏)，以确保在高负载下的可靠性。

作文

In the field of electrical engineering, understanding voltage levels is crucial for designing and operating various systems. One important term that often comes up in discussions about high-voltage systems is peak kilovolts. This term refers to the maximum voltage level that a system can reach during operation, measured in kilovolts (kV). To fully grasp the significance of peak kilovolts, it is essential to explore its applications, implications, and the context in which it is used.Firstly, peak kilovolts plays a vital role in the design of electrical equipment. For instance, transformers, insulators, and circuit breakers must be rated for specific voltage levels to ensure safety and efficiency. If a device is subjected to voltages exceeding its rated capacity, it can lead to catastrophic failures, resulting in equipment damage or even hazardous situations. Therefore, engineers must carefully consider the peak kilovolts when selecting components for high-voltage systems.Moreover, peak kilovolts is particularly relevant in the context of power transmission. High-voltage transmission lines are designed to carry electricity over long distances with minimal losses. The ability to transmit power at high voltage reduces the current flowing through the conductors, which in turn minimizes resistive losses. Understanding the peak kilovolts that these lines can handle is crucial for maintaining grid stability and ensuring that electricity reaches consumers without interruption.Additionally, the concept of peak kilovolts is significant in the realm of renewable energy sources. For example, wind turbines and solar panels generate electricity that must be converted to appropriate voltage levels before it can be integrated into the power grid. Inverters used in these systems must be capable of handling the peak kilovolts produced during operation. This ensures that the electricity generated is safe and compatible with existing infrastructure.Furthermore, understanding peak kilovolts also has implications for regulatory standards and safety protocols. Various organizations establish guidelines to ensure that electrical systems operate within safe voltage limits. These regulations help prevent accidents and protect both workers and the general public from the dangers associated with high-voltage systems. Compliance with these standards requires a thorough understanding of peak kilovolts and its impact on system design and operation.In conclusion, peak kilovolts is a fundamental concept in electrical engineering that has far-reaching implications in the design, operation, and safety of electrical systems. From ensuring the reliability of power transmission to facilitating the integration of renewable energy sources, understanding this term is essential for engineers and technicians working in the field. As technology continues to evolve, the importance of accurately measuring and managing peak kilovolts will only grow, highlighting the need for ongoing education and awareness in this critical area of study.

在电气工程领域，理解电压水平对于设计和操作各种系统至关重要。在有关高压系统的讨论中，一个重要的术语常常被提及，那就是峰值千伏。这个术语指的是一个系统在运行过程中可以达到的最大电压水平，以千伏（kV）为单位。要充分理解峰值千伏的重要性，有必要探讨其应用、影响以及使用的背景。首先，峰值千伏在电气设备设计中起着至关重要的作用。例如，变压器、绝缘体和断路器必须根据特定的电压水平进行评级，以确保安全和效率。如果设备承受超过其额定容量的电压，可能会导致灾难性的故障，造成设备损坏甚至危险情况。因此，工程师在选择高压系统组件时，必须仔细考虑峰值千伏。此外，峰值千伏在电力传输的背景下尤为相关。高压输电线路设计用于以最小损耗将电力长距离传输。以高电压传输电力的能力减少了流经导体的电流，从而最小化了电阻损耗。了解这些线路能够承受的峰值千伏对于维护电网稳定性以及确保电力不间断地到达消费者至关重要。此外，峰值千伏的概念在可再生能源领域也具有重要意义。例如，风力涡轮机和太阳能电池板产生的电力在并入电网之前必须转换为适当的电压水平。这些系统中使用的逆变器必须能够处理在操作过程中产生的峰值千伏。这确保了所产生的电力是安全的，并与现有基础设施兼容。此外，理解峰值千伏还涉及监管标准和安全协议的影响。各种组织建立指南，以确保电气系统在安全电压限制内运行。这些法规有助于防止事故，保护工人和公众免受高压系统相关危险的侵害。遵守这些标准需要对峰值千伏及其对系统设计和操作的影响有透彻的理解。总之，峰值千伏是电气工程中的一个基本概念，具有广泛的影响，涉及电气系统的设计、操作和安全。从确保电力传输的可靠性到促进可再生能源的整合，理解这个术语对在该领域工作的工程师和技术人员至关重要。随着技术的不断发展，准确测量和管理峰值千伏的重要性只会增加，这突显了在这一关键研究领域持续教育和意识的必要性。