maximum permissible stable operation power

简明释义

最大容许稳定运行功率

英英释义

例句

1.During testing, we found that exceeding the maximum permissible stable operation power 最大允许稳定运行功率 could lead to equipment failure.

在测试过程中，我们发现超过最大允许稳定运行功率 maximum permissible stable operation power 可能导致设备故障。

2.The engineers determined that the maximum permissible stable operation power 最大允许稳定运行功率 for the new generator is 500 kW.

工程师们确定新发电机的最大允许稳定运行功率 maximum permissible stable operation power 为500千瓦。

3.The specifications indicate that the maximum permissible stable operation power 最大允许稳定运行功率 for this motor is 10 HP.

规格表明该电动机的最大允许稳定运行功率 maximum permissible stable operation power 为10马力。

4.The maximum permissible stable operation power 最大允许稳定运行功率 is crucial for maintaining system stability.

保持系统稳定至关重要的是最大允许稳定运行功率 maximum permissible stable operation power。

5.To ensure safety, operators must not exceed the maximum permissible stable operation power 最大允许稳定运行功率 during operation.

为了确保安全，操作人员在操作过程中不得超过最大允许稳定运行功率 maximum permissible stable operation power。

作文

In the realm of engineering and technology, understanding the concept of maximum permissible stable operation power is crucial for ensuring the efficiency and safety of various systems. This term refers to the highest level of power that a device or system can operate at without compromising its stability or risking damage. The significance of this concept is particularly evident in fields such as electrical engineering, mechanical systems, and even in renewable energy applications.When designing any system, engineers must consider the maximum permissible stable operation power to avoid potential failures. For instance, in electrical circuits, exceeding this power threshold can lead to overheating, which may cause components to fail or even result in fire hazards. Therefore, it is essential to conduct thorough analyses and simulations during the design phase to determine this maximum limit accurately.In renewable energy systems, such as solar panels and wind turbines, the maximum permissible stable operation power plays a vital role in optimizing performance. Solar panels, for example, have specific ratings that indicate their maximum output under ideal conditions. Understanding these limits allows engineers to design systems that can harness energy efficiently without exceeding the operational capabilities of the panels. Similarly, wind turbines are designed with a maximum power output in mind, ensuring they can operate effectively within the environmental conditions they face.Moreover, the maximum permissible stable operation power is not just a theoretical concept; it has practical implications in day-to-day operations. For instance, in industrial settings, machinery often operates close to its maximum power rating. Operators must monitor power levels to ensure they do not exceed the maximum permissible stable operation power, as doing so could lead to unexpected downtimes and costly repairs. This monitoring is often facilitated by advanced control systems that provide real-time feedback on power consumption and system stability.Additionally, understanding the maximum permissible stable operation power can aid in energy management strategies. In many organizations, energy efficiency is a top priority. By knowing the maximum power limits of their equipment, companies can implement strategies to reduce energy consumption during peak hours, thereby lowering costs and minimizing their environmental impact. This proactive approach not only benefits the organization financially but also contributes to broader sustainability goals.In conclusion, the concept of maximum permissible stable operation power is fundamental across various engineering disciplines. It ensures that systems operate safely and efficiently while preventing potential failures. As technology continues to advance, the importance of understanding and applying this concept will only grow. Engineers and operators alike must prioritize this knowledge to maintain the integrity of their systems and contribute to a more sustainable future. By adhering to the principles surrounding the maximum permissible stable operation power, we can enhance the reliability of our technologies and improve overall operational effectiveness.

在工程和技术领域，理解“最大允许稳定操作功率”的概念对于确保各种系统的效率和安全至关重要。这个术语指的是设备或系统在不妨碍其稳定性或风险损坏的情况下能够运行的最高功率水平。这个概念的重要性在电气工程、机械系统甚至可再生能源应用等领域尤为明显。在设计任何系统时，工程师必须考虑“最大允许稳定操作功率”，以避免潜在的故障。例如，在电路中，超过这一功率阈值可能导致过热，从而使组件失效，甚至引发火灾。因此，在设计阶段进行彻底的分析和模拟，以准确确定这一最大限制是至关重要的。在可再生能源系统中，例如太阳能电池板和风力涡轮机，“最大允许稳定操作功率”在优化性能方面发挥着重要作用。例如，太阳能电池板有特定的额定值，表明其在理想条件下的最大输出。了解这些限制使工程师能够设计出能够高效利用能源的系统，而不会超过电池板的操作能力。同样，风力涡轮机的设计也考虑了最大功率输出，以确保它们在面临的环境条件下能够有效运作。此外，“最大允许稳定操作功率”不仅是一个理论概念，它在日常操作中也具有实际意义。例如，在工业环境中，机械设备通常在其最大功率额定值附近运行。操作员必须监控功率水平，以确保不超过“最大允许稳定操作功率”，因为这样做可能导致意外停机和昂贵的维修。这种监控通常通过先进的控制系统来实现，这些系统提供有关功率消耗和系统稳定性的实时反馈。此外，理解“最大允许稳定操作功率”可以帮助制定能源管理策略。在许多组织中，能源效率是首要任务。通过了解其设备的最大功率限制，公司可以在高峰时段实施减少能源消耗的策略，从而降低成本并最小化对环境的影响。这种主动的方法不仅在财务上对组织有利，还有助于更广泛的可持续发展目标。总之，“最大允许稳定操作功率”的概念在各个工程学科中都是基础。它确保系统安全高效地运行，同时防止潜在的故障。随着技术的不断进步，理解和应用这一概念的重要性只会增加。工程师和操作员都必须优先考虑这一知识，以维护其系统的完整性，并为更可持续的未来做出贡献。通过遵循与“最大允许稳定操作功率”相关的原则，我们可以增强技术的可靠性，提高整体操作效率。