normal operating range

简明释义

正常作业范围

英英释义

例句

1.Monitoring the system's performance is crucial to keep it within the normal operating range.

监控系统的性能对于保持在正常工作范围内至关重要。

2.If the pressure exceeds the normal operating range, it could indicate a malfunction.

如果压力超过了正常工作范围，这可能表明出现故障。

3.The engine temperature must remain within the normal operating range for optimal performance.

发动机温度必须保持在正常工作范围内，以确保最佳性能。

4.The software will alert you if any measurements fall outside the normal operating range.

如果任何测量值超出正常工作范围，软件会提醒您。

5.The technician checked the voltage levels to ensure they were within the normal operating range.

技术员检查了电压水平，以确保它们在正常工作范围内。

作文

In the world of engineering and technology, the concept of a normal operating range is critical for ensuring that systems function efficiently and safely. This term refers to the specific set of conditions under which a machine, device, or system is designed to operate optimally. Understanding this range is essential for operators, engineers, and technicians alike, as it defines the limits within which the equipment can perform without risk of failure or damage. For instance, consider an industrial boiler. The normal operating range for such a boiler would include parameters like temperature, pressure, and flow rate. If these parameters remain within the specified limits, the boiler can operate effectively, producing steam or hot water as required. However, if the temperature exceeds the maximum threshold, it could lead to catastrophic failures, including explosions or leaks. Therefore, maintaining the normal operating range is not just a matter of efficiency; it is also about safety. Similarly, in the field of electronics, devices such as smartphones and laptops have their own normal operating range concerning voltage and temperature. Operating outside these parameters can cause devices to malfunction or even become permanently damaged. For instance, a smartphone may overheat if used in excessively high temperatures, leading to reduced battery life or hardware failure. Thus, manufacturers often provide guidelines that specify the normal operating range for their products, ensuring users are aware of the conditions necessary for optimal performance. Moreover, the normal operating range can vary significantly across different industries and applications. In the automotive industry, for example, the normal operating range for engine temperature is crucial for vehicle performance. An engine that runs too hot can suffer from severe damage, while one that operates too cold may not achieve optimal fuel efficiency. Car manufacturers conduct extensive testing to determine the ideal normal operating range for their engines, which helps in designing cooling systems and other components that keep the engine within safe limits. In addition to physical systems, the concept of a normal operating range can also apply to processes and workflows in business environments. For example, a company may define its normal operating range in terms of sales targets, customer service response times, or production outputs. By monitoring these metrics, management can identify when performance deviates from the expected range, allowing them to take corrective actions before issues escalate. This proactive approach can lead to improved efficiency and profitability. In conclusion, the normal operating range is a fundamental concept that spans multiple disciplines, from engineering to business management. Understanding and adhering to these ranges is vital for maximizing performance and ensuring safety. Whether dealing with machinery, electronic devices, or operational processes, recognizing the importance of the normal operating range allows individuals and organizations to operate smoothly and effectively. As technology continues to evolve, the significance of maintaining these ranges will only grow, highlighting the need for continuous monitoring and adjustment to ensure optimal functioning across all areas.

在工程和技术的世界中，正常操作范围的概念对于确保系统高效和安全地运行至关重要。这个术语指的是机器、设备或系统设计的最佳工作条件的特定集合。理解这个范围对操作员、工程师和技术人员来说都是必不可少的，因为它定义了设备在没有故障或损坏风险的情况下可以运行的限制。例如，考虑一个工业锅炉。这样的锅炉的正常操作范围包括温度、压力和流量等参数。如果这些参数保持在规定的限制内，锅炉就可以有效运行，按需产生蒸汽或热水。然而，如果温度超过最大阈值，可能会导致灾难性的故障，包括爆炸或泄漏。因此，维持正常操作范围不仅仅是效率的问题；它也是安全的问题。同样，在电子领域，智能手机和笔记本电脑等设备也有自己的正常操作范围，涉及电压和温度。在这些参数之外操作可能会导致设备故障，甚至永久损坏。例如，如果在过高的温度下使用，智能手机可能会过热，导致电池寿命缩短或硬件故障。因此，制造商通常提供指导，指定其产品的正常操作范围，确保用户了解最佳性能所需的条件。此外，正常操作范围在不同的行业和应用中可能会有显著的差异。在汽车行业，例如，发动机温度的正常操作范围对车辆性能至关重要。运行过热的发动机可能会遭受严重损坏，而运行过冷的发动机可能无法达到最佳燃油效率。汽车制造商进行广泛测试，以确定其发动机的理想正常操作范围，这有助于设计保持发动机在安全限度内的冷却系统和其他组件。除了物理系统外，正常操作范围的概念也可以应用于商业环境中的流程和工作流程。例如，一家公司可能会在销售目标、客户服务响应时间或生产输出方面定义其正常操作范围。通过监控这些指标，管理层可以识别绩效何时偏离预期范围，从而采取纠正措施，防止问题升级。这种主动的方法可以提高效率和盈利能力。总之，正常操作范围是一个基本概念，跨越多个学科，从工程到商业管理。理解并遵守这些范围对于最大化性能和确保安全至关重要。无论是在处理机械、电子设备还是运营流程时，认识到正常操作范围的重要性使个人和组织能够顺利有效地运作。随着技术的不断发展，维护这些范围的重要性将只会增加，这突显了持续监控和调整以确保各个领域最佳功能的必要性。