maximum continuous rating

简明释义

最大持续功率

英英释义

例句

1.The maximum continuous rating 最大连续额定值 for this transformer is crucial for ensuring safe operation.

该变压器的最大连续额定值最大连续额定值对于确保安全操作至关重要。

2.For optimal performance, always operate the motor within its maximum continuous rating 最大连续额定值 specified by the manufacturer.

为了最佳性能，请始终在制造商指定的最大连续额定值最大连续额定值内操作电动机。

3.Exceeding the maximum continuous rating 最大连续额定值 of the equipment can lead to premature wear and tear.

超过设备的最大连续额定值最大连续额定值可能会导致过早磨损。

4.The generator's maximum continuous rating 最大连续额定值 is 100 kW, ensuring it can operate continuously without overheating.

发电机的最大连续额定值最大连续额定值是100千瓦，确保其可以在不发生过热的情况下连续运行。

5.The maximum continuous rating 最大连续额定值 of this pump allows it to handle the required flow rate without failure.

这台泵的最大连续额定值最大连续额定值允许它在不发生故障的情况下处理所需的流量。

作文

In the world of engineering and manufacturing, understanding the specifications and limits of machinery is crucial. One important term that often arises in discussions about equipment performance is maximum continuous rating. This term refers to the maximum output or capacity that a machine can sustain over an extended period without suffering damage or degradation. The concept of maximum continuous rating is particularly relevant in industries such as power generation, where turbines and generators must operate reliably for long durations. When we look at a generator, for instance, its maximum continuous rating indicates the highest electrical output it can provide continuously while maintaining efficiency and safety standards. Exceeding this rating can lead to overheating, mechanical failure, or a significant decrease in operational lifespan. Therefore, manufacturers provide these ratings based on rigorous testing and engineering analysis, ensuring that users can operate their equipment within safe parameters.Understanding the maximum continuous rating is also essential for engineers and technicians when designing systems that incorporate multiple machines. For example, in a power plant, if several generators are connected to the same grid, their combined output must not exceed the maximum continuous rating of the system. This ensures stability and prevents overload situations that could lead to blackouts or equipment failures.Moreover, the maximum continuous rating is not just a number; it represents a balance between performance and reliability. Engineers must consider various factors, including ambient temperature, humidity, and the specific application of the machine, when determining this rating. For instance, a generator rated for a certain power output in a controlled environment may have a lower maximum continuous rating if used in a hotter or more humid climate.In addition to generators, the concept of maximum continuous rating applies to various types of machinery, including motors, pumps, and compressors. Each piece of equipment has its unique specifications, and understanding these ratings helps operators make informed decisions about usage and maintenance. Regular monitoring of equipment performance against its maximum continuous rating can help identify potential issues before they escalate into costly repairs or downtime.Furthermore, the maximum continuous rating plays a significant role in compliance with industry standards and regulations. Many industries are governed by strict safety and environmental guidelines that require adherence to specified performance metrics. By operating within the maximum continuous rating, companies can ensure they meet these regulations, avoiding legal penalties and enhancing their reputation in the marketplace.In conclusion, the term maximum continuous rating is a fundamental concept in engineering that signifies the maximum sustainable performance of machinery. It is essential for ensuring the reliability, safety, and efficiency of equipment across various industries. By understanding and respecting these ratings, operators and engineers can optimize performance while minimizing risks associated with overloading and equipment failure. Ultimately, the careful consideration of the maximum continuous rating can lead to improved operational efficiency and longevity of critical machinery in any engineering application.

在工程和制造领域，理解机器的规格和限制至关重要。一个常常出现在设备性能讨论中的重要术语是最大连续额定值。这个术语指的是机器能够在不受损坏或退化的情况下持续一段时间的最大输出或能力。最大连续额定值的概念在电力生产等行业尤其相关，因为涡轮机和发电机必须可靠地长时间运行。以发电机为例，其最大连续额定值表示它可以在保持效率和安全标准的情况下持续提供的最高电输出。超过此额定值可能导致过热、机械故障或显著减少操作寿命。因此，制造商根据严格的测试和工程分析提供这些额定值，以确保用户可以在安全参数内操作其设备。理解最大连续额定值对于工程师和技术人员在设计包含多台机器的系统时也至关重要。例如，在发电厂，如果多个发电机连接到同一电网，它们的总输出不得超过系统的最大连续额定值。这确保了稳定性，并防止可能导致停电或设备故障的过载情况。此外，最大连续额定值不仅仅是一个数字；它代表着性能和可靠性之间的平衡。工程师在确定此额定值时必须考虑各种因素，包括环境温度、湿度和机器的具体应用。例如，在受控环境中额定为某一功率输出的发电机，如果在更热或更潮湿的气候中使用，其最大连续额定值可能会降低。除了发电机，最大连续额定值的概念还适用于各种类型的机器，包括电动机、泵和压缩机。每台设备都有其独特的规格，理解这些额定值可以帮助操作员做出明智的使用和维护决策。定期监控设备性能与其最大连续额定值的对比可以帮助识别潜在问题，防止其升级为昂贵的维修或停机。此外，最大连续额定值在符合行业标准和法规方面也起着重要作用。许多行业受到严格的安全和环境指南的监管，这要求遵守规定的性能指标。通过在最大连续额定值范围内操作，公司可以确保满足这些法规，避免法律处罚，并提升其在市场上的声誉。总之，术语最大连续额定值是工程中的一个基本概念，表示机器的最大可持续性能。它对于确保各行业设备的可靠性、安全性和效率至关重要。通过理解和尊重这些额定值，操作员和工程师可以优化性能，同时最小化与过载和设备故障相关的风险。最终，仔细考虑最大连续额定值可以提高关键机器在任何工程应用中的操作效率和使用寿命。